Revision as of 21:55, 9 February 2012

This report presents a brief introduction to OLED (organic light emitting diode) and technologies available for top emission OLED. A detailed taxonomy for OLED is presented covering parts of the type of OLED, material used, manufacturing, applications among others. A detailed landscape analysis of patent and non-patent literature is done with a focus on Top Emission OLED (TEOLED). The product information of major players in the market is also captured for OLED. The final section of the report covers the existing and future market predictions for OLED.

OLED Working Principle

Introduction

OLED technology was firstly developed in 1987 at Eastman Kodak Company by Tang and Van Slyke using small-molecule (sm-OLED). In 1990 Richard Friend, Jeremy Burroughes and Donal Bradley discovered electroluminescence capabilities from conjugated polymers so laying down the foundations for a new generation of flat panel displays.
The growing number of electronic devices using organic light emitting diode displays shows that after years of promise, the technology is increasingly finding place in many products. But while OLED displays might challenge LCDs as the screens of choice for smaller gadgets, the technology may not become mainstream for notebook PCs or TVs within this decade.
OLED displays use organic compounds that emit light when exposed to an electric current. They are brighter, have better contrast, offer wider viewing angles, use less power, and provide faster response times than liquid crystal displays. OLED screens' thickness is a third of that of LCDs, since they don't need a back-light, and that makes them a good fit for portable electronics devices.

Top Emission OLED: Search Strategy

The present study on the IP activity in the area of OLED with focus on Top Emission OLED (TEOLED) is based on a search conducted on Micropat.

Control Patents

S. No.	Patent/Publication No.	Publication Date(mm/dd/yyyy)	Assignee/Applicant	Title
1	US7791271B2	7/9/2010	Global OLED Technology LLC	Top-Emitting OLED Device With Light-Scattering Layer and Color-Conversion.
2	US7781961B2	08/24/2010	Novaled AG	Top Emitting, Electroluminescent Component With Frequency Conversion Centres.
3	US7002293B2	02/21/2006	Eastman Kodak Company	Organic Light Emitting Diode With Improved Light Emission Through The Cathode.
4	US6770502B2	3/8/2004	Eastman Kodak Company	Method Of Manufacturing a Top-emitting OLED display Device with Desiccant Structures.
5	US20080169757A1	07/17/2008	TPO Displays Corp.	Top-Emitting Organic Electroluminescent Display
6	US20060043373A1	2/3/2006	Industrial Technology Research Institute	Method for Manufacturing a Pixel Array of Top Emitting OLED.
7	US20050236629A1	10/27/2005	Samsung Corp.	Top Emission Organic Light Emitting Diode Display Using Auxiliary Electrode to Prevent Voltage Drop of Upper Electrode and Method of Fabricating the Same.
8	EP1489671A2	12/22/2004	Global OLED Technology LLC	Method of Making a Top-Emitting OLED device having Improved Power Distribution
9	EP1029336A1	08/23/2000	Fed Corp.	Top Emitting OLED with Refractory Metal Compounds as Bottom Cathode .
10	WO2001057904A1	9/8/2001	Emagin Corp.	Low Absorption Sputter Protection Layer for OLED Structure.

Patent Classes

S. No.

Class No.

Class Type

Definition

1

257/40

USPC

Active solid-state devices (e.g., transistors, solid-state diodes) /Organic semiconductor material

2

257/E51.018

USPC

Active solid-state devices (e.g., transistors, solid-state diodes) / organic solid state devices, processes or apparatus peculiar to manufacture or treatment of such devices or of parts thereof / structural detail of device / light-emitting organic solid-state device with potential or surface barrier

3

257/E51.019

USPC

Active solid-state devices (e.g., transistors, solid-state diodes) / organic solid state devices, processes or apparatus peculiar to manufacture or treatment of such devices or of parts thereof / structural detail of device / light-emitting organic solid-state device with potential or surface barrier / Electrode

4

257/E51.02

USPC

Active solid-state devices (e.g., transistors, solid-state diodes) / organic solid state devices, processes or apparatus peculiar to manufacture or treatment of such devices or of parts thereof / structural detail of device / light-emitting organic solid-state device with potential or surface barrier / Electrode / Encapsulation

5

257/E51.021

USPC

Active solid-state devices (e.g., transistors, solid-state diodes) / organic solid state devices, processes or apparatus peculiar to manufacture or treatment of such devices or of parts thereof / structural detail of device / light-emitting organic solid-state device with potential or surface barrier / Electrode / Arrangements for extracting light from device (e.g., Bragg reflector pair)

6

257/E51.022

USPC

Active solid-state devices (e.g., transistors, solid-state diodes) / organic solid state devices, processes or apparatus peculiar to manufacture or treatment of such devices or of parts thereof / structural detail of device / light-emitting organic solid-state device with potential or surface barrier / Multicolor organic light-emitting device (OLED)

7

313/504

USPC

Electric lamp and discharge devices/solid-state type/ with particular phosphor or electrode material / Organic phosphor

8

H01L 27/28

IPC

Semiconductor devices; electric solid state devices not otherwise provided for / devices consisting of a plurality of semiconductor or other solid-state components formed in or on a common substrate / including components using organic materials as the active part, or using a combination of organic materials with other materials as the active part

9

H01L 27/32

IPC

Semiconductor devices; electric solid state devices not otherwise provided for / devices consisting of a plurality of semiconductor or other solid-state components formed in or on a common substrate / including components using organic materials as the active part, or using a combination of organic materials with other materials as the active part / with components specially adapted for light emission, e.g. flat-panel displays using organic light-emitting diodes

10

H01L 51/50

IPC

Semiconductor devices; electric solid state devices not otherwise provided for / solid state devices using organic materials as the active part, or using a combination of organic materials with other materials as the active part; processes or apparatus specially adapted for the manufacture or treatment of such devices, or of parts thereof / specially adapted for light emission, e.g. organic light emitting diodes (oled) or polymer light emitting devices (pled)

11

H01L 51/52

IPC

Semiconductor devices; electric solid state devices not otherwise provided for / solid state devices using organic materials as the active part, or using a combination of organic materials with other materials as the active part; processes or apparatus specially adapted for the manufacture or treatment of such devices, or of parts thereof / Details of devices

12

H01L 51/56

IPC

Semiconductor devices; electric solid state devices not otherwise provided for/specially adapted for sensing infra-red radiation, light, electromagnetic radiation of shorter wavelength, or corpuscular radiation; specially adapted either for the conversion of the energy of such radiation into electrical energy or for the control of electrical energy by such radiation / Processes or apparatus specially adapted for the manufacture or treatment of such devices or of parts thereo

Concept Table

S. No.	Concept 1	Concept 2
S. No.	Top emission	Organic Light Emitting Diode
1	top emitting	oled
2	top emissive	polymer led
3	top emission	light emitting polymer diode
4	toled	organic led
5	teoled	organic electroluminescent diode
6		foled
7		sm-oled
8		small molecule oled
9		amoled
10		pmoled

Micropatent Search Strategy

Database: Micropat
Patent coverage: US, EP, WO, JP, DE, GB, FR
Time line: 1836/01/01 to 2011/02/20

S. No.	Concept	Scope	Search String	No. of Hits
1	Classes - OLED	Any Classification	H01L005150* OR H01L005152* OR H01L005156 OR H05B003308P OR 257E51.022	63152
2	Classes - Organic Semiconductor Devices	Any Classification	313504 OR 257040 OR 257E51.018 OR 257E51.019 OR 257E51.020 OR 257E51.021 OR H01L002728 OR H01L002732	27601
3	Top Emission keywords	Claims, Title or Abstract	((top emitting) OR (toled) OR (teoled) OR (te-oled) OR (top ADJ2 emitting) OR (top ADJ2 emissive) OR (top ADJ2 emission)) ADJ ((light ADJ emitting ADJ polymer) OR (organic ADJ electro-luminescence ADJ diode) OR (ORganic ADJ electroluminescent ADJ diode) OR (ploymer ADJ light ADJ emitting ADJ diode) OR (ORganic ADJ light ADJ emitting ADJ device) OR (self-luminous ADJ diode) OR (oled) OR (organic led arrays) OR (organic ADJ light ADJ emitting ADJ diode) OR (organic ADJ light ADJ emission ADJ diode) OR (polymer ADJ light ADJ emission ADJ device) OR (organic ADJ electroluminescent device) OR (oel) OR (oleds))	1141
4	OLED keywords	Claims, Title or Abstract	((organic OR (small adj molecule1) OR polymer1) adj (lightemitting OR (light adj (emitting OR emission)) OR electroluminescen2 OR (electro adj luminescen2))) NEAR3 diode1) OR oled2 OR smled2 OR pled2 OR (light adj (emitting OR emission) adj polymer1) OR ((organic OR (small adj molecule1) OR polymer1) NEAR3 led2)	39392
5	Top emissioin OLED keywords	Claims, Title or Abstract	(((((organic OR (small ADJ molecule1) OR polymer1) ADJ (lightemitting OR (light ADJ (emitting OR emission)) OR electroluminescen2 OR (electro ADJ luminescen2))) NEAR3 diode1) OR oled2 OR smled2 OR pled2 OR (light ADJ (emitting OR emission) ADJ polymer1) OR ((ORganic OR (small ADJ molecule1) OR polymer1) NEAR3 led2)) AND ((top ADJ3 (emissi2 OR emitting)))) OR (te ADJ oled2)	429
6	Top Emission keywords AND OLED classes	Combined query	1 AND 3	809
7	LED Keywords	Claims, Title or Abstract	((lightemitting OR (light ADJ (emitting OR emission)) OR electroluminescen2 OR (electro ADJ luminescen2)) NEAR3 diode1) OR led2 OR oled2 OR smled2 OR pled*2	1617014
8	Top emission keywords AND Organic semiconductor devices classes AND Top emission keywords	Combined query	2 AND 7 AND 3	224
9	Top emissioin OLED keywords	Full patent spec.	(((((organic OR (small ADJ molecule1) OR polymer1) ADJ (lightemitting OR (light ADJ (emitting OR emission)) OR electroluminescen2 OR (electro ADJ luminescen2))) near3 diode1) OR oled2 OR smled2 OR pled2 OR (light ADJ (emitting OR emission) ADJ polymer1) OR ((organic OR (small ADJ molecule1) OR polymer1) near3 LED2)) near3 ((top ADJ3 (emissi2 OR emitting)))) OR (te ADJ oled2)	1506
10	German Keywords	Full patent spec.	((top adj3 (emissi2 OR emitting)) OR (Top NEAR2 emittierende1)) NEAR3 ((organische NEAR2 (led1 OR Leuchtdiode1)) OR (Licht adj emittierende adj Polymer1) OR oled1)	1430
11	French Keywords	Full patent spec.	((top ADJ3 (émissive OR émettant)) OR (démission ADJ top) OR (top ADJ3 (emissi2 OR emitting))) NEAR3 ((diode1 NEAR3 électroluminescente NEAR3 organique1) OR ((Polymère1 OR organiques) ADJ2 led1) OR (polymère1 NEAR3 émettant NEAR3 lumière) OR oled*1)	1412
12		Combined query	5 OR 6 OR 8 OR 9 OR 10 OR 11	2113 (1132 unique)
13	Control Patents	Patent/Publication No.	WO2001057904A1 OR EP1029336A1 OR EP1489671A2 OR US20050236629A1 OR US20060043373A1 OR US20080169757A1 OR US6770502B2 OR US7002293B2 OR US7781961B2 OR US7791271B2	10
14		Combined query	12 AND 13	10

Scientific Literature Search

S.No	Database	Query	Limits by Date	No.Of Hit
1	Google scholar	(Top emitting or top emission or top emissive) and ((organic light emitting diode) or (polymer led) or (light emitting polymer led) or (OLED))	1990-2011	1840

Search in Japanese database

Database: IPDL (Industrial property digital library), Japan

Date of search: 1900/01/01 to 2011/02/15

S.No.	Issue/Publication date	F-Term Theme	FI/F-term/Facet	Hits
1	1900/01/01 to 2011/03/02	3K107	DD03*[AA01+BB01+BB02+BB03+BB04+BB05+BB06+BB07+BB08+DD01+DD04+DD42+DD50+CC01+CC02+CC04+CC06+CC07+ CC08+CC09+EE02+EE03+EE06+EE22+GG01+GG02+GG03+GG04+GG05+GG06+GG07+GG08+GG08]	1596

F-Terms and theme used in search

Japanese F-term search			Definition
Sr. No.	F- Term theme	3K107	Electroluminescent light sources
1	F- Term	AA01	Organic electroluminescent element.
2	F- Term	BB01	Used in displays.
3	F- Term	BB02	Used in Lights or light sources
4	F- Term	BB03	Used in Backlights or the like for liquid crystals
5	F- Term	BB04	Used in printer heads
6	F- Term	BB05	Used in lasers
7	F- Term	BB06	Used in designs or advertisements
8	F- Term	BB07	Used in timepieces
9	F- Term	BB08	Used in on-board use
10	F- Term	DD01	Having feature of all direction of light emission.
11	F- Term	DD03	Having top emission.
12	F- Term	DD04	Having double sided emission.
13	F- Term	DD42	Having Organic materials.
14	F- Term	DD50	Structured with Light emitting layers
15	F- Term	CC01	Having Light emitting layers
16	F- Term	CC02	Light emission characteristics were improved.
17	F- Term	CC04	Has an effect on brightness.
18	F- Term	CC06	Has an effect on efficiency
19	F- Term	CC07	Has an effect on colours.
20	F- Term	CC08	Has an effect on Colour purity; Colour temperatures; Light emission wavelengths, including UV
21	F- Term	CC09	Has colour balance feature
22	F- Term	EE02	Has white light emission.
23	F- Term	EE03	Display having Passive matrices
24	F- Term	EE06	Display having Active matrices
25	F- Term	EE22	Display having with RGB picture elements having different areas
26	F- Term	GG01	Dispaly having color filters.
27	F- Term	GG02	Apparatus for deposition
28	F- Term	GG03	Apparatus for dry methods
29	F- Term	GG04	Apparatus for chemical vapour deposition
30	F- Term	GG05	Apparatus for evaporation
31	F- Term	GG06	Apparatus for sputtering
32	F- Term	GG07	Apparatus for wet methods
33	F- Term	GG08	Apparatus for printing
34	F- Term	GG08	Apparatus for Inkjet

Taxonomy

Sample Analysis

Patent Analysis

A sample of 200 patents from the search is analyzed based on the taxonomy. Provided a link below for sample spread sheet analysis for Top Emission OLED.

S.No

Patent/Publication No.

Date of Publication

Assignee / Applicant

Title

Problem

Solution

1

US7692191B2

04/06/2010

Samsung Mobile Display Co., Ltd.

Top-emitting organic light emitting device

In the conventional top-emitting organic light emitting device, each pixel electrode is designed to have a minimum width, and neighboring pixel electrodes are designed to be widely spaced apart from each other by as much as 17 .mu.m. Therefore, the wide space between the pixel electrodes leaks emitted light, thereby deteriorating the voltage-current characteristics of the thin film transistors i.e., increasing photo-leakage.

In this patent the top-emitting organic light emitting device has maximized the width of a pixel electrode , thereby enhancing aperture ratio. Furthermore, the pixel electrode is arranged to overlap all thin film transistors, so that light is prevented from leaking through a space between neighboring pixel electrodes, thereby reducing photo-leakage of the thin film transistor.

2

US7554259B2

06/30/2009

Sanyo Electric Co., Ltd.

Light emitting display apparatus having excellent color reproducibility

Organic electroluminescence panel obtains white light by synthesizing two lights each having complementary color to the other, and the three primary colors differ in luminous intensity. Therefore it is difficult to set chromaticity of white light to desired level. And even after color-filter transmission, red light and blue light will have stronger luminous intensity than green light.

The present invention objective provide a light emitting display apparatus having excellent color reproducibility. Organic light emitting layer that synthesizes two or more complementary colors of light that are complementary to each other thereby producing white light. It has a resonant structure by which a resonant wavelength is set to a predetermined wavelength, and outputs the white light via the resonant structure where the predetermined wavelength substantially coincides with a wavelength corresponding to a primary color whose luminous intensity is uniform.With the stated construction, non-uniformity in luminous intensity among three primary colors is alleviated by means of amplified luminous intensity due to resonance. This will help obtain white light in which the primary colors are balanced well.

3

US7332859B2

02/19/2008

Canon Kabushiki Kaisha

Organic luminescence device with anti-reflection layer and organic luminescence device package

In organic luminescence device, the transparent electrode is formed by a material of a refractive index higher than that of air or nitrogen, constituting the external environment of the organic luminescence device. Therefore, the light emitted from the light emitting layer is reflected at a light emitting surface of the transparent electrode , namely at the interface between the transparent electrode and the air constituting the external environment in FIG. 1. For this reason, such organic luminescence device has been associated with a low efficiency of light emission to the exterior.

The present invention is to provide an organic luminescence device of a high light-emitting efficiency to the exterior and an organic luminescence device of a satisfactory contrast. A case holding the organic luminescence device in an internal holding space, in which a light emitted from the organic luminescence device, is emitted to the exterior through a light emitting side of the case; wherein anti-reflection means is provided on a light-emitting face on the light-emitting side among faces constituting the internal holding space of the case

4

US6885157B1

04/26/2005

Eastman Kodak Company

Integrated touch screen and OLED flat-panel display

It has the problem of multiple external electrical connections by employing a flat-panel display having a substrate that extends beyond the substrate of the resistive touch screen.

The present invention has the advantage that it reduces the costs and improves the reliability and performance of a touch screen that is used with an OLED flat-panel display by integrating cable connections on a single substrate and providing touch screen signal processing on the display substrate.

5

US6069443A

05/30/2000

FED Corporation

Passive matrix OLED display

The disadvantage of oxygen and moisture penetration into the interior of the organic light emitting device is the potential to form metal oxides at the metal-organic interface. These metal oxide impurities may allow separation of the cathode or anode and the organic in a matrix . This can result in the formation of dark non-emitting spots (i.e., no illumination).Edge shorting between the cathode and anode layers is a current problem affecting most conventional organic light emitting display devices. This edge shorting reduces the illuminating potential of the display devices.

The present invention to provide an insulator layer to minimize edge shorts between lines by separating the OLED layer and the electrode elements. It also provides a sealing structure to isolate the OLED layer from moisture and other contaminants.

6

US20110031511A1

02/10/2011

None

ORGANIC LIGHT EMITTING DIODE DISPLAY AND METHOD OF MANUFACTURING THE SAME

In the organic light emitting layer, as it is easy to transfer energy in an interface between a light emitting layer and a hole transfer layer, a light emitting efficiency and lifetime of the OLED display are reduced because of an energy loss of triplet inside the OLED display.

An interface of the light emitting layer can be improved by forming the inorganic oxide layer between the hole transport layer and the light emitting layer. Further, an energy loss of triplet can be prevented, and the emission efficiency and lifetime can be improved.

7

US20070153051A1

07/05/2007

Samsung Electronics Co., Ltd.

Manufacturing flat panel displays with inkjet printing systems

For manufacture of certain flat panel display devices, such as LCDs or OLED displays, various thin film patterns are formed on panel substrates of the devices, typically using photolithography processes. However, as displays become larger, the amount of material that must be deposited on substrates to form the thin film patterns also becomes larger, inturn increases the manufacturing costs of the panels.

Inkjet printing systems have been developed for forming the thin film patterns on the substrates by depositing them on the substrates in the form of special inks. These systems deposit the ink on the substrate through an inkjet head. However, the inkjet head includes a plurality of nozzles, and if only one of these nozzles becomes dysfunctional, the number of passes that the inkjet printing head must make increases. As a result, processing time and costs are substantially increased.

8

US6911671B2

06/28/2005

Eastman Kodak Company

Device for depositing patterned layers in OLED displays

To achieve color pixelation in OLED imaging panels, fabrication of a multicolor OLED imaging panel using a shadow masking method is used. A multicolor organic electroluminescent ("EL") medium is vapor deposited and patterned by controlling an angular position of a substrate with respect to a deposition vapor stream. The positioning an element in direct contact with a surface of a substrate can invite problems of abrasion, distortion, or partial lifting, this may cause abrasion, distortion, or partial lifting of the first-color pattern.

The present invention is that a pattern of vaporized material, such as organic material, can be deposited without the use of shadow mask.Another feature is that a plurality of devices can be used for simultaneously depositing different organic materials. Such organic materials can emit light in different ranges of the spectrum.

9

US7218295B2

05/15/2007

AU Optronics Corp.

Driving method for active matrix OLED display

In one display frame, the current received by the OLED is fixed.The driving method used previously accumulates carriers inside the OLED which reduce the life of the OLEDs. Moreover, the voltage across the OLED gradually increases over timewhich inturn increases power. This effects the OLED over time.

The present invention uses a driving method to neutralize carrier accumulation in the OLED, thereby reducing the increase in voltage and minimizing the increase in power consumption across both ends of the OLED over time, further increasing the life of the OLED.

10

US7067170B2

06/27/2006

Eastman Kodak Company

Depositing layers in OLED devices using viscous flow

To achieve color pixelation in OLED imaging panels, fabrication of a multicolor OLED imaging panel using a shadow masking method is used. A multicolor organic electroluminescent ("EL") medium is vapor deposited and patterned by controlling an angular position of a substrate with respect to a deposition vapor stream. The positioning an element in direct contact with a surface of a substrate can invite problems of abrasion, distortion, or partial lifting, this may cause abrasion, distortion, or partial lifting of the first-color pattern.

The present invention is that the method of color pixelating an organic layer includes providing a plurality of vapor sources disposed outside of a deposition chamber for generating vapors of organic materials, and connecting such vapor sources to a manifold disposed in the chamber. By using vapor deposition method, we can eliminate precision shadow masks.

Click here to view the detailed analysis sheet for doubly-fed induction generators patent analysis.

Article Analysis

S.No.	Title	Authors	Publication date	Journal/Conference	Dolcera summery.
1	Application of Screen Printing in the Fabricationof Organic Light-Emitting Devices	Dino A. Pardo, Ghassan E. Jabbour,* andNasser Peyghambarian	01/27/2000	Optical Sciences Center, University of Arizona.IEEE 27 Jan 2000	This article explains the screen printing technique which deposits organic active layer having a thickness of several tens of nanometers and acting as a hole-transport layer (HTL) in multilayer OLEDs. The resulting devices emitlight at low voltage (<5 V) and have a peak external quantum efficiency of 0.91 %.
2	Multicolor Organic Light-Emitting DiodesProcessed by Hybrid Inkjet Printing	Shun-Chi Chang, Jie Liu, Jayesh Bharathan,Yang Yang,* Jun Onohara and Junji Kido	08/07/1999	Department of Materials Science and EngineeringUniversity of California at Los Angeles. willey 8 Jul 1999	This article presents a multicolor patterning technique to produce controllable patterning of red-green-blue OLEDs with fine pixel displays. The LEDs comprise bilayer structures of red and green dopants with inkjet-printed onto a film of the blue-emitting semiconducting polymer, the latter serving as the hole-transport layer.
3	Organic light-emitting diode (OLED)technology: materials, devices and displaytechnologies	Bernard Geffroy, Philippe le Roy and Christophe Prat	06/02/2006	Laboratoire Cellules et Composants. willey 6 Feb 2006	This article presents an overview of OLED's over LCD's. OLED'S have a thickness, currently less than 2 mm. Having high contrast ratio is also a strong point of OLED and also in fast response time.OLEDs for flat-panel display applications are their self-emitting property, high luminous efficiency, full-colour capability, wide viewing angle, high contrast,low power consumption, low weight, potentially large area colour displays and flexibility.
4	Organic/polymeric electroluminescent devices processed by hybrid ink-jet printing	Yang Yang, Shun-Chi Chang, Jayesh Bharathan and Jie Liu	04/05/1999	Journal of Materials Science: Materials in Electronics Volume 11, Number 2,	The HIJP concept is a unique approach for fabricating polymer and organic electronic devices. One is able to apply this technology for the deposition of various functional materials such as charge-injection layers, charge-blocking layers, and multicolor polymer/organic emissive layers. It can be used for the fabrication of logos, indicator lights, multicolor displays and also in bio-medical applications such as biosensors for low cost diagnostics.
5	White Organic Light-Emitting Devices for Solid-State Lighting	B. W. D'Andrade, S. R. Forrest	14/10/2004	Department of Electrical Engineering, Princeton University Willey 14 OCT 2004	This article presents the WOLEDs increasing display applications for use primarily as liquid-crystal display backlights. They have achieved high material purity, low cost, high brightness,color quality and long operational life-times.
6	White organic light-emitting diodes with fluorescent tube efficiency	Sebastian Reineke, Frank Lindner, Gregor Schwartz, Nico Seidler, Karsten Walzer	14/05/2009	Institute of Applied Photophysics. Vol 459 Macmillan Pub	This article presents an WOLED havinh high internal quantum efficiencies for the con-version of electrical energy to light have been realized by focussing on reducing energetic and ohmic losses that occur during electron–photon conversion.This can be achieved by improved OLED structure which reaches fluorescent tube efficiency. By combining a care-fully chosen emitter layer with high-refractive-index substrates and using a periodic outcoupling structure
7	Precision ink jet printing of polymer light emitting displays	J. F. Dijksman, P. C. Duineveld, M. J. J. Hack, A. Pierik, J. Rensen, J.-E. Rubingh, I. Schram andM. M. Vernhou	09/11/2006	Philips Research Laboratories RSC	Precision ink jet printing of organic polymer light emitting diodes relies strongly on the accuracy of the droplet generation process.Image capturing using one image at a time for image processing delivers sharper images and can be used for optically measuring droplet volumes.
8	High-efficiency microcavity top-emitting organic light-emittingdiodes using silver anode	Huajun Peng, Jiaxin Sun, Xiuling Zhu, Xiaoming Yu, Man Wong, and Hoi-Sing Kwok	17/02/2006	Hong Kong Universityof Science and Technology. AIP	High efficient top-emitting OLEDs have been fabricated using highly reflective Ag as the anode. Surfacemodification of the Ag anode by CF4 plasma substantially enhances the hole injection efficiency. The color variation isalmost eliminated in the TOLED. The optimized microcav- ity TOLED has a current efficiency enhancement of 65% and a total outcoupling efficiency enhancement of 35%, as compared with a conventional OLED.
9	Inverted top-emitting organic light-emitting diodes using transparent conductive NiO electrode	Se-W. Park, Jeong-M. Choi, Eugene Kim and Seongil Im	09/01/2005	Institute of Physics and Applied Physics, Applied Surface Science 244 (2005) 439–443	TE-OLED device uses a thermally evaporated and semi-transparent NiO film as a top-electrode. Since the sheet resistance of our NiO was very high and its transmittance was only about 50%, the resulting luminance and injection current of our TE-OLED were much inferior to those of the BE-OLED device.
10	Self-assembled monolayer-modified Ag anode for top-emitting polymerlight-emitting diodes	Lai-Wan Chong, Yuh-Lang Lee,a͒ and Ten-Chin Wenb͒	07/12/2006	Department of Chemical Engineering, National Cheng Kung University	Self-assembled monolayer is a method to modify the Ag anodes for application in T-PLED. The Ag electrode can be utilized as an effective anode to improve the emitting characteristic of a T-PLED. The Ag anode enhances the hole injection, reduce the op-eration voltage, and significantly increase the current inten-sity and luminous efficiency of the device, without decreasing the reflectivity of the Ag anode.

Click here to view the detailed analysis sheet for Top Emission OLED for non patent literature

Top Cited Patents

S. No.	Patent/Publication No.	Publication Date (mm/dd/yyyy)	Assignee/Applicant	Title	Citation Count
1	US6096496A	8/1/2000	Frankel; Robert D	Supports incorporating vertical cavity emitting lasers and tracking apparatus for use in combinatorial synthesis	130
2	US6069443A	5/30/2000	Fed Corporation	Passive matrix OLED display	97
3	US6366017B1	4/2/2002	Agilent Technologies	Organic light emitting diodes with distributed bragg reflector	80
4	US20020197511A1	12/26/2002	United Of America As Respresented By The Secretary Of The Air Force	High efficiency multi-color electro-phosphorescent OLEDS	51
5	US6265820B1	7/24/2001	Emagin Corporation,De	Heat removal system for use in organic light emitting diode displays having high brightness	50
6	US20020195968A1	12/26/2002	IBM	Oled current drive pixel circuit	44
7	US20020186209A1	12/12/2002	Eastman Kodak Company	Touch screen for use with an OLED display	42
8	US20030127973A1	7/10/2003	Universal Display Corporation	OLEDs having increased external electroluminescence quantum efficiencies	41
9	US6844673B1	1/18/2005	Alien Technology Corporation	Split-fabrication for light emitting display structures	38
10	US20040174116A1	9/9/2004	Universal Display Corporation	Transparent electrodes	36
11	US20050194896A1	9/8/2005	Hitachi Displays Ltd.	Light emitting element and display device and illumination device using the light emitting element	35
12	US20020074935A1	6/20/2002	Universal Display Corporation	Highly stable and efficient OLEDs with a phosphorescent-doped mixed layer architecture	35
13	US20040217702A1	11/4/2004	Corning Incorporated	Light extraction designs for organic light emitting diodes	33
14	US20020030647A1	3/14/2002	Universal Display Corporation	Uniform active matrix oled displays	32
15	US20050248270A1	11/10/2005	Eastman Kodak Company	Encapsulating OLED devices	31
16	US20040113875A1	6/17/2004	Eastman Kodak Company	Color oled display with improved power efficiency	29
17	US20030230972A1	12/18/2003	Eastman Kodak Company	Oled display having color filters for improving contrast	28
18	US20050040756A1	2/24/2005	Eastman Kodak Company	OLED device having microcavity gamut subpixels and a within gamut subpixel	27
19	US6670772B1	12/30/2003	Eastman Kodak Company	Organic light emitting diode display with surface plasmon outcoupling	26
20	US20040061136A1	4/1/2004	Eastman Kodak Company	Organic light-emitting device having enhanced light extraction efficiency	26

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Products

S. No.

Company

Product

Specifications

1

Sony

BVME250

Digital Inputs Specifications

Detail:

HDMI

HDMI (x1) (HDCP correspondence, Deep Color correspondence)

SDI (SMPTE 259M)

BNC (x2)

Display Specifications

Detail:

Image Aspect Ratio

16:09

Resolution

1920 x 1080 pixels (Full HD)

Screen Size

24 5/8 inches (623.4 mm)

Viewing Angle

89°/89°/89°/89°

General Specifications Specifications

Detail:

Dimensions (W x H x D)

22 3/4 x 16 3/4 x 5 7/8 inches

Weight

28 lb 11 oz

Power Requirements Specifications

Detail:

Power Consumption

Approx. 145 W

Power Requirements

AC 100 V to 240 V, 1.6 A to 0.8 A, 50/60 Hz

2

Sony

BVM-E170

Digital Inputs Specifications

Detail:

HDMI

HDMI (x1) (HDCP correspondence, deep colour correspondence)

SDI

BNC (x2)

Display Specifications

Detail:

Image Aspect Ratio

16:09

Resolution

1920 x 1080 pixels (Full HD)

Screen Size

365.8 x 205.7 mm (14 1/2 x 8 1/8 inches)

Viewing Angle

89°/89°/89°/89° (typical) (up/down/left/right contrast >10:1)

General Specifications Specifications

Detail:

Dimensions (W x H x D)

436.0 x 282.4 (266.4)* x 214.7 mm (17 1/4 x 11 1/4 (10 1/2)* x 8 1/2 inches) * Height without legs

Weight

8.5 kg (18 lb 11 oz)

Power Requirements Specifications

Detail:

Power Consumption

Approx. 65 W normally with input from a standard HDMI input. Approx. 115 W at maximum load, with four option slots in use and maximum luminance compensation for any deterioration due to aging.

Power Requirements

AC 100 V to 240 V, 1.4 A to 0.7 A, 50/60 Hz DC 24 V to 28 V, 4.7 A to 4.0 A

3

Sony

PVM-740

Digital Inputs Specifications

Detail:

HDMI

Yes

HDSDI (SMPTE 292M)

3G/SDI/HDSDI

SDI (SMPTE 259M)

Included

Display Specifications

Detail:

Back Light Technology

OLED

Native Aspect Ratio

16:09

Resolution

960 x 540

Screen Size

Approx 7.4 inches

Viewing Angle

85°/85°/85°/85° (typical) (up/down/left/right contrast>10:1)

General Specifications Specifications

Detail:

Dimensions (W x H x D)

8 7/8 x 7 1/4 x 6 3/8 inches Approx. 222.4 x 183.5 x 161.8 mm

On-Screen Display

Yes

Rack Mount

MB531

Weight

Approx. 5 lb 12 oz Approx. 2.6 kg

Power Requirements Specifications

Detail:

Power Consumption

Max. approx. 27W

Power Requirements

AC 100 to 240 V 50/60 Hz 0.5A to 0.3A DC 12 V 1.9 A Rechargeable Battery Pack

Market Research

Major Players

Major types of player	USA	EU	Japan	Korea	Taiwan	China
Original IPR for devices and for manufacture process + material supply / verification	UDC; Kodak; Add-Vision; Magin; Plextronics; Organic Lighting Technologies; GE;3M Innovation	CDT (Sumitomo Chemical) (UK); Novaled (G); Fraunhofer IPMS (G); OLED-T (UK); OTB (ND); MicroEmissive Displays (UK)	Seiko-Epson; Matsushita; Sony; Sumitomo Chemical; Sharp; TM Display; Konica –Minolta; Sanyo; Toppoly; Lumiotec; Canon; Toshiba	Samsung; LG Phillips LCD; Neo View; Doosan DND	AU Optoelectronics (AUO); Univision; Toppoly; Tetrahedron; Chi Mei Optoelectronics
Bulk materials and glass suppliers	PPG; 3M; Dow Corning	Merck Materials (G); BASF (G); CDT (UK); Degussa/ Evonik (G); HC Starck (G); Sensient Imaging Technologies (G); Goodfellow Metals (UK); Novaled (G)	Sumitomo Chemical; Mitsubishi Chemical			Syndychem (Shenyang Syndy Chemistry Institute)
Components – driver ccts., packaging etc	Corning; Rockwell Collins	ST Microelectronics (It, Fr); Infineon (G)	Maekawa; Matsushita; Toppoly	Dae Joo Electrncs	AUO; Richtek Technologies; Lightsonic; Univision; Wintek	Innocom Technologies Shenzen; RIT Display
OEM OLED FPD screen manufacturer & resellers	eMagin; US Micro Products	Densitron Technologies (UK); MicroEmissive Displays (MED) (UK); Pacer International Distributors (UK reseller)	Seiko-Epson; Sharp; Sumitomo Chemical; Lumiotec; TMDisplay; Sanyo	Samsung SDI; Orion OLED; NeoView KOLON; Hyundai LCD	AUO; Chi Mei EL (CMEL); Univision Technology; Evervision Electronics; RiTDisplay; TPO Display	Visionix; Smartdisplays; Universal Display Technologoes (Jilin); Varitronix (HK); Blaze Display Technologies
Branded application device or/and FPD screen manufacturer with retail device sales	OSD	Nokia; Sony-Ericsson	Sony; Matsushita; Hitachi; Toshiba; Imase	Samsung; LG Philips
OLED lighting branded suppliers and R&D	GE	Thorn EMI (UK); OSRAM (G); Siemens (G)	Sumitomo Chemica

source: Major players

SWOT analysis

Strengths	Weaknesses
• Capability for innovation • Production of base materials for OLED manufacture • Process equipment manufacture is easy.	• Lack of industrial productive capacity or eco-system to support low-cost volume production • Capability to bring innovations to market – i.e. probability of export market success • Lack of branded consumer goods suppliers apart from mobile handsets – e.g. Nokia
Opportunities	Threats
• Possible renaissance in manufacturing at low-cost • Use of IPR – with mitigations through agreements • Expansion in base materials supply and process equipment manufacture for low temperatures	• Older technologies – TFT-LCDs which improve technically – become cheaper, flexible, lower power demands and better colour/contrast, scale up larger, etc, make existing (LCD) players far stronger • Strong competitive position and behaviour of current major players globally and market make market entry difficult or increasingly impossible

Market Forecast

OLED Lighting Market Forecast

OLED lighting will pick up in 2011, and reach $6.3B by 2018.
The OLED lighting market will reach $1.5B by 2015, and $6.3B by 2018.
Large investments have been made in OLED lighting in the EU, US, Japan and Korea.
There are about 20 OLED lighting organizations worldwide. Europe is currently the leading participant in OLED lighting in terms of projects numbers, government funding, and participating companies.
Over 100 companies and universities are currently working on OLED lighting.

OLED Lighting Market Forecast

OLED TV Market Forecast

OLED TV sets will account for around half of all revenue for OLED panels in 2012, growing rapidly from just $150 million in 2011 to $1.5 billion in 2013.
iSuppli’s similarly forecasts the global OLED TV market will reach 2.8 million units by 2013, managing a compound annual growth rate (CAGR) of 212.3% from just 3,000 units in 2007.
In terms of global revenue, OLED TV will hit $1.4 billion by 2013, increasing at a CAGR of 206.8% from $2 million in 2007.

OLED TV Market Forecast

OLED Dispaly Market Forecast

OLED display market will grow to $5.5 billion by 2015, from $0.6 billion in 2008, with a CAGR of 37%. Currently, this growth is being driven by the adoption of active matrix OLED (AMOLED) displays for the primary display in mobile phones and portable media players.

OLED Display Market Forecast

Recent Licensing Activities in OLED Segment

Licensor	Licensee	Date	Details
Global OLED Technology LLC	OLEDWorks	6th Dec 2011	Under the terms of the royalty-bearing license, OLEDWorks is granted the right to use certain GOT patents in connection with OLEDWorks’ commercialization of specified OLED lighting-related products.
Universal Display	Moser Baer	8th Feb 2011	Moser Baer agreed to license Universal’s OLED technology and purchase UniversalPHOLED (phosphorescent OLED) materials for white OLED panel manufacturing. The companies have agreed to work together for five years in the development of Moser Baer’s US-based OLED panel manufacturing project.
Universal Display	Pioneer Corp	29th Sep 2011	Pioneer is supposed to use Universal Display’s highly efficient, high-performance UniversalPHOLED® technology and materials for the manufacture and sale of OLED lighting products
DuPont	Samsung	3rd Nov 2011	Samsung needed new technology for its larger models for televisions and hoped to benefit from DuPont’s recent innovations.

Landscape Analysis Of Top-Emmission OLED

Competitor Landscape

Top Assignee

Filing trends over the publication years

IP activity based on publication years

Filing trends over the priority years

IP activity based on priority years

Geographical Distribution based on family members

The geographical distribution is based on 10 sample patent numbers along with all their family members.

Geographical Distribution based on Family members of OLED

Key Inventor Mapping

S.No	Inventor	2000	2001	2002	2003	2004	2005	2006	2007	2008	2009	2010	Total Result
1	Cok, Ronald			1	3	22	18	17	14	15	4	2	96
2	Park, Jin Woo								18	2			20
3	Choi, Beohm Rock						1	6	7	2			16
4	Kim, Nam Deog							7	6	3			16
5	Tyan, Yuan Sheng					2	7	3	1	1	1		15
6	Winters, Dustin					2	5	5	2	1			15
7	Choi, Dong Soo								13	1			14
8	Choi, Joon Hoo						2	3	4	5			14
9	Kwak, Won Kyu						1	1	9	1	1	1	14
10	Miller, Michael					4	4	2	1	1	1	1	14
11	Park, Jae Yong				2	8	4						14
12	Shore, Joel					2	2	5	3	1	1		14
13	Arnold, Andrew					4	5	1	1	1	1		13
14	Boroson, Michael				1		4	3	1		4		13
15	Goh, Joon Chul						1	4	5	3			13
16	Tanaka, Masahiro						1	1	1	5	4	1	13
17	Choong, Vi En						5	5	2				12
18	Ghosh, Amalkumar	2	1			1	3	5					12
19	Kim, Eun Ah						1	2				9	12
20	Kobayashi Hidekazu						1	2	2	5	1	1	12
21	Total Result	2	1	1	6	45	67	72	90	47	18	15	362

Most Cited Patents

S.No	Publication Number	Assignee/Applicant	Title	Publication Date	Count of Citing Patents
1	US6069443A	Fed Corporation	Passive matrix OLED display	30/05/2000	97
2	US6366017B1	Agilent Technologies	Organic light emitting diodes with distributed bragg reflector	02/04/2002	80
3	US20020197511A1	United Of America As Respresented By The Secretary Of The Air Force	High efficiency multi-color electro-phosphorescent OLEDS	26/12/2002	51
4	US6265820B1	Emagin Corporation,De	Heat removal system for use in organic light emitting diode displays having high brightness	24/07/2001	50
5	US20020195968A1	IBM	Oled current drive pixel circuit	26/12/2002	44
6	US20020186209A1	Eastman Kodak Company	Touch screen for use with an OLED display	12/12/2002	42
7	US20030127973A1	Universal Display Corporation	OLEDs having increased external electroluminescence quantum efficiencies	10/07/2003	41
8	US6844673B1	Alien Technology Corporation	Split-fabrication for light emitting display structures	18/01/2005	38
9	US20040174116A1	Universal Display Corporation	Transparent electrodes	09/09/2004	36
10	US20050194896A1	Hitachi Displays Ltd.	Light emitting element and display device and illumination device using the light emitting element	08/09/2005	35
11	US20020074935A1	Universal Display Corporation	Highly stable and efficient OLEDs with a phosphorescent-doped mixed layer architecture	20/06/2002	35
12	US20040217702A1	Corning Incorporated	Light extraction designs for organic light emitting diodes	04/11/2004	33
13	US20020030647A1	Universal Display Corporation	Uniform active matrix oled displays	14/03/2002	32
14	US20050248270A1	Eastman Kodak Company	Encapsulating OLED devices	10/11/2005	31
15	US20040113875A1	Eastman Kodak Company	Color oled display with improved power efficiency	17/06/2004	29
16	US20030230972A1	Eastman Kodak Company	Oled display having color filters for improving contrast	18/12/2003	28
17	US20050040756A1	Eastman Kodak Company	OLED device having microcavity gamut subpixels and a within gamut subpixel	24/02/2005	27
18	US6670772B1	Eastman Kodak Company	Organic light emitting diode display with surface plasmon outcoupling	30/12/2003	26
19	US20040061136A1	Eastman Kodak Company	Organic light-emitting device having enhanced light extraction efficiency	01/04/2004	26

Most Cited Patents Mapping

Most Cited Patents

Technology Mapping

In OLED devices not all internally generated light is coupled out of the device (only 20%-50%), which reduces the device efficiency and lifetime.
Modification in structures are applied to improve outcouple efficiency in order to enhance the efficiency and lifetime of top emission OLEDs.
Below is a snapshot of how various organizations are using different design structures, using the same principle of internal reflection, to achieve higher out-coupling efficiencies.

Comparison of out coupling of waveguiding light in top-emission polyLED stack

Some light is reflected out of the OLED at stray angles in typical cases. By using a barrier material (form of microparticles) in the cathode layer, this light at stray angles hits the barrier material, and some of it is reflected back and guided out at the right angles, reducing light loss.

Microparticles are incorporated in the substrate, which prevents light loss by reflecting light emitted at stray angles.

A highly reflective anode is provided made of Aluminium or Silver, with a mirror like finish, to reflect light.

A shielding layer is provided below the anode, across its entire surface, thus increasing the surface area from which light can be reflected outside.

The reflective layer, anode, is made of a highly reflective surface like Aluminium alloy or silver.

Conclusion

The innovation is towards:

Incorporating micro-particles structure over the substrate that provide a reflective surface.
Highly reflective materials using metals like Molybdenum etc.

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Samir Raiyani
Email: info@dolcera.com
Phone: +1-650-269-7952

S. No.	Title	Publication Date	Journal/Conference	Citations Count
1	Electroluminescence from single monolayers of nanocrystals in molecular organic devices	Oct 2002	Nature, Internatinal journal of science.	736
2	Spin-dependent exciton formation in π-conjugated compounds	Aug 2001	Nature, Internatinal journal of science.	220
3	Highly Efficient Organic Devices Based on Electrically Doped Transport Layers	Mar 2007	American Chemical Society Pub.	211
4	Phosphorescent top-emitting organic light-emitting devices with improved light outcoupling	Nov 2002	Applied Physics Letters / Volume 82	111
5	Thin-film permeation-barrier technology for flexible organic light-emitting devices	Jan 2004	IEEE Photonics Society	104
6	Design of flat-panel displays based on organic light-emitting devices	Feb 1998	IEEE Photonics Society	100
7	A new a-Si:H thin-film transistor pixel circuit for active-matrix organic light-emitting diodes	Aug 2003	IEEE Electron Devices Society	86
8	The road to high efficiency organic light emitting devices	Sep 2003	ScienceDirect	87
9	Amorphous silicon thin film transistor circuit integration for organic LED displays on glass and plastic	Sep 2004	IEEE Photonics Society	73
10	Transparent-cathode for top-emission organic light-emitting diodes	Feb 2003	Applied Physics Letters	72

@@ Line 1: / Line 1: @@
-This report presents a brief summary about Dolcera's capabilities in working with standards, with LTE as an example. The taxonomy covers most of the important aspects of LTE. Also presented are examples of mapping patents to standards going to the detail of graphical analysis. Analysis of IPR declarations made to ETSI, and documents uncovered by Dolcera search is also provided.
+This report presents a brief introduction to OLED (organic light emitting diode) and technologies available for top emission OLED. A detailed taxonomy for OLED is presented covering parts of the type of OLED, material used, manufacturing, applications among others. A detailed landscape analysis of patent and non-patent literature is done with a focus on Top Emission OLED (TEOLED). The product information of major players in the market is also captured for OLED. The final section of the report covers the existing and future market predictions for OLED.
+[[Image:OLED.png|right|thumb|800px| '''[http://electronics.howstuffworks.com/oled2.htm OLED Working Principle]]]
+=Introduction=
+*OLED technology was firstly developed in 1987 at Eastman Kodak Company by Tang and Van Slyke using small-molecule (sm-OLED). In 1990 Richard Friend, Jeremy Burroughes and Donal Bradley discovered electroluminescence capabilities from conjugated polymers so laying down the foundations for a new generation of flat panel displays.
+*The growing number of electronic devices using organic light emitting diode displays shows that after years of promise, the technology is increasingly finding place in many products. But while OLED displays might challenge LCDs as the screens of choice for smaller gadgets, the technology may not become mainstream for notebook PCs or TVs within this decade.
+*OLED displays use organic compounds that emit light when exposed to an electric current. They are brighter, have better contrast, offer wider viewing angles, use less power, and provide faster response times than liquid crystal displays. OLED screens' thickness is a third of that of LCDs, since they don't need a back-light, and that makes them a good fit for portable electronics devices.
+==Read More? ==
+Click on [[OLED Background]] to read more about OLED.
-==Rationale==
+Traditional light bulbs were invented more than 130 years ago. Since then the basic principle of creating light remains the same, although the design has been tweaked.An electric current passing through a tungsten wire causes it to heat up and glow white hot.Today, more than 20% of electricity used in US buildings is eaten up by lights and nearly half that amount is used by traditional, incandescent light bulbs. It has been a long-term goal of scientists to come up with something that would reduce this mammoth energy demand.
-* LTE is the most suited mobile technology as it provides higher data rates required for the future and is an improvement over the established GSM/EDGE/HSPA systems
-* LTE is promoted by major corporates as the technology enabling future communication
-* The following advantages are expected to be obtained with the realization of LTE
-** Reduced cost per bit
-** Increased service provisioning - more services at lower cost with better user experience
-** Flexibility of use of existing and new frequency bands
-** Simplified architecture, Open interfaces
-** Allow for reasonable terminal power consumption
-==Background description==
+The OLEDs do not heat up like today's light bulbs and so are far more energy efficient and last longer.They also produce a light that is more akin to natural daylight than traditional bulbs. The new polymer uses a fluorescent blue material instead which lasts much longer and uses less energy.
-LTE (Long Term Evolution), is the latest standard in the mobile network technology that came into existence because of the growing needs of faster data rates. It is a 3rd Generation Partnership Project (3GPP), which  realized this technology. LTE is an advancement to previously realized technologies such as GSM/EDGE and UMTS/HSxPA etc. Although LTE is often marketed as 4G, first-release LTE is actually a 3.9G technology since it does not fully comply with the IMT Advanced 4G requirements.
+=Top Emission OLED: Search Strategy=
+The present study on the IP activity in the area of OLED with focus on '''''Top Emission OLED (TEOLED)''''' is based on a search conducted on Micropat.
-LTE-Advanced has been granted 4G compliance given the significant improvement they provide over 3G technologies [http://www.itu.int/net/pressoffice/press_releases/2010/48.aspx]
+==Control Patents==
-[[Image:lte-evolve.jpg|centre|500px|thumb|[http://www.4gamericas.org/index.cfm?fuseaction=page&sectionid=249 '''LTE Evolution''' ]]]
+{|border="2" cellspacing="0" cellpadding="4" width="100%"
+| style="background-color:#4f81bd;padding:0.079cm;"| <center>'''S. No. '''</center>
+| style="background-color:#4f81bd;padding:0.079cm;"| <center>'''Patent/Publication No. '''</center>
+| style="background-color:#4f81bd;padding:0.079cm;"| <center>'''Publication Date(mm/dd/yyyy) '''</center>
+| style="background-color:#4f81bd;padding:0.079cm;"| <center>'''Assignee/Applicant '''</center>
+| style="background-color:#4f81bd;padding:0.079cm;"| <center>'''Title '''</center>
-Voice traffic will be supported mainly as Voice over IP (VoIP) enabling better integration with other multimedia services. LTE is being designed to be a high data rate and low latency system. LTE is also aimed at minimizing cost and power consumption while ensuring backward-compatibility and a cost effective migration from UMTS systems.
+|-
-[http://www.radio-electronics.com/info/cellulartelecomms/lte-long-term-evolution/3g-lte-basics.php LTE tutorial]
+| style="background-color:#DCE6F1;padding:0.079cm;"| <center>1</center>
+| style="background-color:#DCE6F1;padding:0.079cm;"| <center>[http://patft.uspto.gov/netacgi/nph-Parser?Sect1=PTO1&Sect2=HITOFF&d=PALL&p=1&u=%2Fnetahtml%2FPTO%2Fsrchnum.htm&r=1&f=G&l=50&s1=7791271.PN.&OS=PN/7791271&RS=PN/7791271 US7791271B2]</center>
+| style="background-color:#DCE6F1;padding:0.079cm;"| <center>7/9/2010</center>
+| style="background-color:#DCE6F1;padding:0.079cm;"| Global OLED Technology LLC
+| style="background-color:#DCE6F1;padding:0.079cm;"| Top-Emitting OLED Device With Light-Scattering Layer and Color-Conversion.
-==Technical details==
+|-
+| style="padding:0.079cm;"| <center>2</center>
+| style="padding:0.079cm;"| <center>[http://patft.uspto.gov/netacgi/nph-Parser?Sect1=PTO1&Sect2=HITOFF&d=PALL&p=1&u=%2Fnetahtml%2FPTO%2Fsrchnum.htm&r=1&f=G&l=50&s1=7781961.PN.&OS=PN/7781961&RS=PN/7781961 US7781961B2]</center>
+| style="padding:0.079cm;"| <center>08/24/2010</center>
+| style="padding:0.079cm;"| Novaled AG
+| style="padding:0.079cm;"| Top Emitting, Electroluminescent Component With Frequency Conversion Centres.
-===Performance requirements===
+|-
-LTE is expected to support different types of services including web browsing, FTP, video streaming, VoIP, online gaming, real time video, push-to-talk and push-to-view. Therefore, it is being designed to be a high data rate and low latency system as indicated by the key performance criteria shown below.
+| style="background-color:#DCE6F1;padding:0.079cm;"| <center>3</center>
+| style="background-color:#DCE6F1;padding:0.079cm;"| <center>[http://patft.uspto.gov/netacgi/nph-Parser?Sect1=PTO1&Sect2=HITOFF&d=PALL&p=1&u=%2Fnetahtml%2FPTO%2Fsrchnum.htm&r=1&f=G&l=50&s1=7002293.PN.&OS=PN/7002293&RS=PN/7002293 US7002293B2]</center>
+| style="background-color:#DCE6F1;padding:0.079cm;"| <center>02/21/2006</center>
+| style="background-color:#DCE6F1;padding:0.079cm;"| Eastman Kodak Company
+| style="background-color:#DCE6F1;padding:0.079cm;"| Organic Light Emitting Diode With Improved Light Emission Through The Cathode.
-[[Image:lte-p.jpg|800px|thumb|centre|[http://www.3gpp.org/LTE '''Fig.1 LTE Release 8 Major Parameters <br> Fig.2 LTE-Release 8 User Equipment Categories ''']]]
+|-
+| style="padding:0.079cm;"| <center>4</center>
+| style="padding:0.079cm;"| <center>[http://patft.uspto.gov/netacgi/nph-Parser?Sect1=PTO1&Sect2=HITOFF&d=PALL&p=1&u=%2Fnetahtml%2FPTO%2Fsrchnum.htm&r=1&f=G&l=50&s1=6770502.PN.&OS=PN/6770502&RS=PN/6770502 US6770502B2]</center>
+| style="padding:0.079cm;"| <center>3/8/2004</center>
+| style="padding:0.079cm;"| Eastman Kodak Company
+| style="padding:0.079cm;"| Method Of Manufacturing a Top-emitting OLED display Device with Desiccant Structures.
-==LTE architecture==
+|-
-[[Image:arch.jpg|700px|thumb|centre|[http://www.ericsson.com/res/docs/whitepapers/lte_overview.pdf LTE architecture]]]
+| style="background-color:#DCE6F1;padding:0.079cm;"| <center>5</center>
+| style="background-color:#DCE6F1;padding:0.079cm;"| <center>[http://appft1.uspto.gov/netacgi/nph-Parser?Sect1=PTO1&Sect2=HITOFF&d=PG01&p=1&u=%2Fnetahtml%2FPTO%2Fsrchnum.html&r=1&f=G&l=50&s1=%2220080169757%22.PGNR.&OS=DN/20080169757&RS=DN/20080169757 US20080169757A1]</center>
+| style="background-color:#DCE6F1;padding:0.079cm;"| <center>07/17/2008</center>
+| style="background-color:#DCE6F1;padding:0.079cm;"| TPO Displays Corp.
+| style="background-color:#DCE6F1;padding:0.079cm;"| Top-Emitting Organic Electroluminescent Display
-===Protocol stack===
+|-
-[[Image:prot.jpg|600px|thumb|centre|[http://www.ericsson.com/res/thecompany/docs/journal_conference_papers/wireless_access/IEEE-Com-Mag-April-2009-LTE-SAE-Rel-8-link-layer-design.pdf Protocol stack of LTE]]]
+| style="padding:0.079cm;"| <center>6</center>
+| style="padding:0.079cm;"| <center>[http://appft1.uspto.gov/netacgi/nph-Parser?Sect1=PTO1&Sect2=HITOFF&d=PG01&p=1&u=%2Fnetahtml%2FPTO%2Fsrchnum.html&r=1&f=G&l=50&s1=%2220060043373%22.PGNR.&OS=DN/20060043373&RS=DN/20060043373 US20060043373A1]</center>
+| style="padding:0.079cm;"| <center>2/3/2006</center>
+| style="padding:0.079cm;"| Industrial Technology Research Institute
+| style="padding:0.079cm;"| Method for Manufacturing a Pixel Array of Top Emitting OLED.
-===Data flow ===
+|-
-The data flow through protocol stack can be shown as
+| style="background-color:#DCE6F1;padding:0.079cm;"| <center>7</center>
-[[Image:dataf.jpg|600px|thumb|centre|[http://www.ericsson.com/res/thecompany/docs/journal_conference_papers/wireless_access/IEEE-Com-Mag-April-2009-LTE-SAE-Rel-8-link-layer-design.pdf Dataflow]]]
+| style="background-color:#DCE6F1;padding:0.079cm;"| <center>[http://appft1.uspto.gov/netacgi/nph-Parser?Sect1=PTO1&Sect2=HITOFF&d=PG01&p=1&u=%2Fnetahtml%2FPTO%2Fsrchnum.html&r=1&f=G&l=50&s1=%2220050236629%22.PGNR.&OS=DN/20050236629&RS=DN/20050236629 US20050236629A1]</center>
+| style="background-color:#DCE6F1;padding:0.079cm;"| <center>10/27/2005</center>
+| style="background-color:#DCE6F1;padding:0.079cm;"| Samsung Corp.
+| style="background-color:#DCE6F1;padding:0.079cm;"| Top Emission Organic Light Emitting Diode Display Using Auxiliary Electrode to Prevent Voltage Drop of Upper Electrode and Method of Fabricating the Same.
-===LTE frame structure===
+|-
+| style="padding:0.079cm;"| <center>8</center>
+| style="padding:0.079cm;"| <center>[http://v3.espacenet.com/searchResults?NUM=EP1489671A2&DB=EPODOC&submitted=true&locale=en_V3&ST=number&compact=false EP1489671A2]</center>
+| style="padding:0.079cm;"| <center>12/22/2004</center>
+| style="padding:0.079cm;"| Global OLED Technology LLC
+| style="padding:0.079cm;"| Method of Making a Top-Emitting OLED device having Improved Power Distribution
-In order to maintain synchronization and manage different types of information exchange that need to be carried between the base-station or eNodeB and the User Equipment (UE),  LTE system has a defined LTE frame and sub frame structure for the E-UTRA or Evolved UMTS Terrestrial Radio Access
+|-
+| style="background-color:#DCE6F1;padding:0.079cm;"| <center>9</center>
+| style="background-color:#DCE6F1;padding:0.079cm;"| <center>[http://v3.espacenet.com/searchResults?NUM=EP1029336A1&DB=EPODOC&submitted=true&locale=en_V3&ST=number&compact=false EP1029336A1]</center>
+| style="background-color:#DCE6F1;padding:0.079cm;"| <center>08/23/2000</center>
+| style="background-color:#DCE6F1;padding:0.079cm;"| Fed Corp.
+| style="background-color:#DCE6F1;padding:0.079cm;"| Top Emitting OLED with Refractory Metal Compounds as Bottom Cathode .
-There are two types of LTE frame structure:
+|-
+| style="padding:0.079cm;"| <center>10</center>
+| style="padding:0.079cm;"| <center>[http://www.wipo.int/pctdb/en/wo.jsp?WO=2001057904 WO2001057904A1]</center>
+| style="padding:0.079cm;"| <center>9/8/2001</center>
+| style="padding:0.079cm;"| Emagin Corp.
+| style="padding:0.079cm;"| Low Absorption Sputter Protection Layer for OLED Structure.
-* '''Type 1: FDD systems'''
+|}
-** The basic type 1 LTE frame has an overall length of 10 ms. This is then divided into a total of 20 individual slots. LTE sub frames then consist of two slots - in other words there are ten LTE sub frames within a frame.
-[[Image:type1f.jpg|thumb|centre|600px|[http://www.radio-electronics.com/info/cellulartelecomms/lte-long-term-evolution/lte-frame-subframe-structure.php LTE frame structure]]]
+==Patent Classes==
-* '''Type 2: TDD systems'''
+{|border="2" cellspacing="0" cellpadding="4" width="100%"
-** The frame structure for the type 2 frames used on LTE TDD is somewhat different. The 10 ms frame comprises two half frames, each 5 ms long. The LTE half-frames are further split into five sub frames, each 1ms long.
+| style="background-color:#4f81bd;padding:0.079cm;"| <center>'''S. No.'''</center>
+| style="background-color:#4f81bd;padding:0.079cm;"| <center>'''Class No.'''</center>
+| style="background-color:#4f81bd;padding:0.079cm;"| <center>'''Class Type'''</center>
+| style="background-color:#4f81bd;padding:0.079cm;"| <center>'''Definition'''</center>
-[[Image:type2f.jpg|thumb|centre|600px|[http://www.radio-electronics.com/info/cellulartelecomms/lte-long-term-evolution/lte-frame-subframe-structure.php LTE frame structure]]]
+|-
+| style="padding:0.079cm;"| <center>1</center>
+| style="padding:0.079cm;"| [http://www.uspto.gov/web/patents/classification/uspc257/sched257.htm#C257S040000 257/40]
+| style="padding:0.079cm;"| USPC
+| style="padding:0.079cm;"| Active solid-state devices (e.g., transistors, solid-state diodes) /'''Organic semiconductor material '''
-* The subframes may be divided into standard sub frames of special sub frames. The special sub frames consist of three fields
+|-
-** DwPTS - Downlink Pilot Time Slot
+| style="background-color:#DCE6F1;padding:0.079cm;"| <center>2</center>
-** GP - Guard Period
+| style="background-color:#DCE6F1;padding:0.079cm;"| [http://www.uspto.gov/web/patents/classification/uspc257/sched257.htm#C257SE51018 257/E51.018 ]
-** UpPTS - Uplink Pilot Time Slot.
+| style="background-color:#DCE6F1;padding:0.079cm;"| USPC
+| style="background-color:#DCE6F1;padding:0.079cm;"| Active solid-state devices (e.g., transistors, solid-state diodes) / organic solid state devices, processes or apparatus peculiar to manufacture or treatment of such devices or of parts thereof / structural detail of device / '''light-emitting organic solid-state device with potential or surface barrier '''
-==LTE enabling technologies==
+|-
+| style="padding:0.079cm;"| <center>3</center>
+| style="padding:0.079cm;"| [http://www.uspto.gov/web/patents/classification/uspc257/sched257.htm#C257SE51019 257/E51.019 ]
+| style="padding:0.079cm;"| USPC
+| style="padding:0.079cm;"| Active solid-state devices (e.g., transistors, solid-state diodes) / organic solid state devices, processes or apparatus peculiar to manufacture or treatment of such devices or of parts thereof / structural detail of device / light-emitting organic solid-state device with potential or surface barrier / '''Electrode '''
-* '''OFDMA (Orthogonal Frequency Division Multiple Access)'''
+|-
-** It is used in the downlink communication of LTE as it can support high data rates
+| style="background-color:#DCE6F1;padding:0.079cm;"| <center>4</center>
-* '''SC-FDMA (Single Carrier FDMA)'''
+| style="background-color:#DCE6F1;padding:0.079cm;"| [http://www.uspto.gov/web/patents/classification/uspc257/sched257.htm#C257SE5102 257/E51.02 ]
-** It is used in the uplink communication of LTE as it helps in reducing terminal power consumption
+| style="background-color:#DCE6F1;padding:0.079cm;"| USPC
-* '''MIMO (Multi-Input Multi-Output)'''
+| style="background-color:#DCE6F1;padding:0.079cm;"| Active solid-state devices (e.g., transistors, solid-state diodes) / organic solid state devices, processes or apparatus peculiar to manufacture or treatment of such devices or of parts thereof / structural detail of device / light-emitting organic solid-state device with potential or surface barrier / Electrode '''/ Encapsulation '''
-** Helps in obtaining increased data rates with usage of many antennas.
-* '''System Architecture Evolution(SAE)'''
+|-
-** New core network architecture to support the high-throughput / low latency LTE access system
+| style="padding:0.079cm;"| <center>5</center>
-** Simplified network architecture
+| style="padding:0.079cm;"| [http://www.uspto.gov/web/patents/classification/uspc257/sched257.htm#C257SE51021 257/E51.021 ]
-** All IP network
+| style="padding:0.079cm;"| USPC
-** All services are via PS domain only, No CS domain
+| style="padding:0.079cm;"| Active solid-state devices (e.g., transistors, solid-state diodes) / organic solid state devices, processes or apparatus peculiar to manufacture or treatment of such devices or of parts thereof / structural detail of device / light-emitting organic solid-state device with potential or surface barrier / Electrode '''/ Arrangements for extracting light from device (e.g., Bragg reflector pair) '''
-** Support mobility between multiple heterogeneous access system
-* '''Fractional frequency reuse'''
+|-
-** Helps in reusing the frequency so that spectral efficiency can be improved
+| style="background-color:#DCE6F1;padding:0.079cm;"| <center>6</center>
+| style="background-color:#DCE6F1;padding:0.079cm;"| [http://www.uspto.gov/web/patents/classification/uspc257/sched257.htm#C257SE51018 257/E51.022 ]
+| style="background-color:#DCE6F1;padding:0.079cm;"| USPC
+| style="background-color:#DCE6F1;padding:0.079cm;"| Active solid-state devices (e.g., transistors, solid-state diodes) / organic solid state devices, processes or apparatus peculiar to manufacture or treatment of such devices or of parts thereof / structural detail of device / light-emitting organic solid-state device with potential or surface barrier / '''Multicolor organic light-emitting device (OLED) '''
+|-
+| style="padding:0.079cm;"| <center>7</center>
+| style="padding:0.079cm;"| [http://www.uspto.gov/web/patents/classification/uspc313/sched313.htm#C313S504000 313/504]
+| style="padding:0.079cm;"| USPC
+| colspan="12"  style="padding:0.079cm;"| Electric lamp and discharge devices/solid-state type/ with particular phosphor or electrode material / '''Organic phosphor '''
+|-
+| style="background-color:#DCE6F1;padding:0.079cm;"| <center>8</center>
+| style="background-color:#DCE6F1;padding:0.079cm;"| [http://www.wipo.int/ipcpub/#refresh=page¬ion=scheme&version=20110101&symbol=H01L0027280000 H01L 27/28 ]
+| style="background-color:#DCE6F1;padding:0.079cm;"| IPC
+| style="background-color:#DCE6F1;padding:0.079cm;"| Semiconductor devices; electric solid state devices not otherwise provided for / devices consisting of a plurality of semiconductor or other solid-state components formed in or on a common substrate / '''including components using organic materials as the active part, or using a combination of organic materials with other materials as the active part'''
+|-
+| style="padding:0.079cm;"| <center>9</center>
+| style="padding:0.079cm;"| [http://www.wipo.int/ipcpub/#refresh=page¬ion=scheme&version=20110101&symbol=H01L0027320000 H01L 27/32 ]
+| style="padding:0.079cm;"| IPC
+| style="padding:0.079cm;"| Semiconductor devices; electric solid state devices not otherwise provided for / devices consisting of a plurality of semiconductor or other solid-state components formed in or on a common substrate / including components using organic materials as the active part, or using a combination of organic materials with other materials as the active part / '''with components specially adapted for light emission, e.g. flat-panel displays using organic light-emitting diodes'''
+|-
+| style="background-color:#DCE6F1;padding:0.079cm;"| <center>10</center>
+| style="background-color:#DCE6F1;padding:0.079cm;"| [http://www.wipo.int/ipcpub/#refresh=page¬ion=scheme&version=20110101&symbol=H01L0051500000 H01L 51/50 ]
+| style="background-color:#DCE6F1;padding:0.079cm;"| IPC
+| style="background-color:#DCE6F1;padding:0.079cm;"| Semiconductor devices; electric solid state devices not otherwise provided for / solid state devices using organic materials as the active part, or using a combination of organic materials with other materials as the active part; processes or apparatus specially adapted for the manufacture or treatment of such devices, or of parts thereof / '''specially adapted for light emission, e.g. organic light emitting diodes (oled) or polymer light emitting devices (pled)'''
+|-
+| style="padding:0.079cm;"| <center>11</center>
+| style="padding:0.079cm;"| [http://www.wipo.int/ipcpub/#refresh=page¬ion=scheme&version=20110101&symbol=H01L0051520000 H01L 51/52 ]
+| style="padding:0.079cm;"| IPC
+| style="padding:0.079cm;"| Semiconductor devices; electric solid state devices not otherwise provided for / solid state devices using organic materials as the active part, or using a combination of organic materials with other materials as the active part; processes or apparatus specially adapted for the manufacture or treatment of such devices, or of parts thereof / '''Details of devices'''
+|-
+| style="background-color:#DCE6F1;padding:0.079cm;"| <center>12</center>
+| style="background-color:#DCE6F1;padding:0.079cm;"| [http://www.wipo.int/ipcpub/#refresh=page¬ion=scheme&version=20110101&symbol=H01L0051560000 H01L ][http://www.wipo.int/ipcpub/#refresh=page¬ion=scheme&version=20110101&symbol=H01L0051560000 51/56 ]
+| style="background-color:#DCE6F1;padding:0.079cm;"| IPC
+| style="background-color:#DCE6F1;padding:0.079cm;"| Semiconductor devices; electric solid state devices not otherwise provided for/specially adapted for sensing infra-red radiation, light, electromagnetic radiation of shorter wavelength, or corpuscular radiation; specially adapted either for the conversion of the energy of such radiation into electrical energy or for the control of electrical energy by such radiation / '''Processes or apparatus specially adapted for the manufacture or treatment of such devices or of parts thereo'''
-==Taxonomy==
-{|border="2" cellspacing="0" cellpadding="4" width="100%"
-|<mm>[[Long Term Evolution3.mm|title Long Term Evolution|border]]</mm>
 |}
-==Major players in the ETSI list for LTE==
+==Concept Table==
-[[Image:etsifa.jpg|centre|1000px|]]
+{|border="2" cellspacing="0" cellpadding="4" width="55%"
+| rowspan="2" align = "center" bgcolor = "#4F81BD" width="38"|<font color="#FFFFFF">'''S. No.'''</font>
+|align = "center" bgcolor = "#4F81BD"|<font color="#FFFFFF">'''Concept 1'''</font>
+|align = "center" bgcolor = "#4F81BD"|<font color="#FFFFFF">'''Concept 2'''</font>
-==Relevant Documents for LTE in the ETSI list==
+|-
+| style="background-color:#4f81bd;padding:0.079cm;"| <center>'''Top emission'''</center>
+| colspan="3"  style="background-color:#4f81bd;padding:0.079cm;"| <center>'''Organic Light Emitting Diode'''</center>
+|-
+| style="background-color:#DCE6F1;padding:0.079cm;"| <center>1</center>
+| style="background-color:#DCE6F1;padding:0.079cm;"| top emitting
+| style="background-color:#DCE6F1;padding:0.079cm;"| oled
+|-
+| style="padding:0.079cm;"| <center>2</center>
+| style="padding:0.079cm;"| top emissive
+| colspan="2"  style="padding:0.079cm;"| polymer led
+|-
+| style="background-color:#DCE6F1;padding:0.079cm;"| <center>3</center>
+| style="background-color:#DCE6F1;padding:0.079cm;"| top emission
+| colspan="2"  style="background-color:#DCE6F1;padding:0.079cm;"| light emitting polymer diode
+|-
+| style="padding:0.079cm;"| <center>4</center>
+| style="padding:0.079cm;"| toled
+| colspan="2"  style="padding:0.079cm;"| organic led
+|-
+| style="background-color:#DCE6F1;padding:0.079cm;"| <center>5</center>
+| style="background-color:#DCE6F1;padding:0.079cm;"| teoled
+| colspan="2"  style="background-color:#DCE6F1;padding:0.079cm;"| organic electroluminescent diode
+|-
+| style="padding:0.079cm;"| <center>6</center>
+| style="padding:0.079cm;"|
+| style="padding:0.079cm;"| foled
+|-
+| style="background-color:#DCE6F1;padding:0.079cm;"| <center>7</center>
+| style="background-color:#DCE6F1;padding:0.079cm;"|
+| style="background-color:#DCE6F1;padding:0.079cm;"| sm-oled
+|-
+| style="padding:0.079cm;"| <center>8</center>
+| style="padding:0.079cm;"|
+| colspan="2"  style="padding:0.079cm;"| small molecule oled
+|-
+| style="background-color:#DCE6F1;padding:0.079cm;"| <center>9</center>
+| style="background-color:#DCE6F1;padding:0.079cm;"|
+| style="background-color:#DCE6F1;padding:0.079cm;"| amoled
+|-
+| style="padding:0.079cm;"| <center>10</center>
+| style="padding:0.079cm;"|
+| style="padding:0.079cm;"| pmoled
+|}
+==Micropatent Search Strategy==
+'''Database:''' Micropat<br>
+'''Patent coverage:''' US, EP, WO, JP, DE, GB, FR<br>
+'''Time line:''' 1836/01/01 to 2011/02/20
 {|border="2" cellspacing="0" cellpadding="4" width="100%"
-|align = "center" bgcolor = "#538ED5"|<font color="#FFFFFF">'''S.No'''</font>
+| style="background-color:#4F81BD;padding:0.079cm;"| <center>'''S. No.'''</center>
-|align = "center" bgcolor = "#538ED5"|<font color="#FFFFFF">'''Publication Number'''</font>
+| style="background-color:#4F81BD;padding:0.079cm;"| <center>'''Concept'''</center>
-|align = "center" bgcolor = "#538ED5"|<font color="#FFFFFF">'''Title'''</font>
+| style="background-color:#4F81BD;padding:0.079cm;"| <center>'''Scope'''</center>
-|align = "center" bgcolor = "#538ED5"|<font color="#FFFFFF">'''Filing date'''</font>
+| style="background-color:#4F81BD;padding:0.079cm;"| <center>'''Search String'''</center>
-|align = "center" bgcolor = "#538ED5"|<font color="#FFFFFF">'''Expiry date'''</font>
+| style="background-color:#4F81BD;padding:0.079cm;"| <center>'''No. of Hits'''</center>
-|align = "center" bgcolor = "#538ED5"|<font color="#FFFFFF">'''Priority Date'''</font>
-|align = "center" bgcolor = "#538ED5"|<font color="#FFFFFF">'''Assignee/Applicant'''</font>
-|align = "center" bgcolor = "#538ED5"|<font color="#FFFFFF">'''Count of Cited Refs - Patent'''</font>
-|align = "center" bgcolor = "#538ED5"|<font color="#FFFFFF">'''Rating'''</font>
 |-
-|align = "center" bgcolor = "#B8CCE4"|1
+| style="background-color:#DCE6F1;padding:0.079cm;"| <center>1</center>
-|bgcolor = "#B8CCE4"|<font color="#0000FF"><u>[http://patft.uspto.gov/netacgi/nph-Parser?Sect1=PTO1&Sect2=HITOFF&d=PALL&p=1&u=%2Fnetahtml%2FPTO%2Fsrchnum.htm&r=1&f=G&l=50&s1=5754976.PN.&OS=PN/5754976&RS=PN/5754976 US5754976A]</u></font>
+| style="background-color:#DCE6F1;padding:0.079cm;"| Classes - OLED
-|align = "center" bgcolor = "#B8CCE4"|Algebraic codebook with signal-selected pulse amplitude/position combinations for fast coding of speech
+| style="background-color:#DCE6F1;padding:0.079cm;"| Any Classification
-|align = "center" bgcolor = "#B8CCE4"|7/28/1995
+| style="background-color:#DCE6F1;padding:0.079cm;"| H01L005150* OR H01L005152* OR H01L005156 OR H05B003308P OR 257E51.022
-|align = "center" bgcolor = "#B8CCE4"|7/28/2015
+| style="background-color:#DCE6F1;padding:0.079cm;"| 63152
-|align = "center" bgcolor = "#B8CCE4"| 1990-02-23 <nowiki>|</nowiki> 1992-09-10 <nowiki>|</nowiki> 1995-02-06 <nowiki>|</nowiki> 1995-07-28
-|align = "center" bgcolor = "#B8CCE4"|Universite de Sherbrooke, Sherbrooke, CA
-|align = "center" bgcolor = "#B8CCE4"|44
-|align = "center" bgcolor = "#B8CCE4"|2
 |-
-|align = "center"|2
+| style="padding:0.079cm;"| <center>2</center>
-|<font color="#0000FF"><u>[http://patft.uspto.gov/netacgi/nph-Parser?Sect1=PTO1&Sect2=HITOFF&d=PALL&p=1&u=%2Fnetahtml%2FPTO%2Fsrchnum.htm&r=1&f=G&l=50&s1=6724976.PN.&OS=PN/6724976&RS=PN/6724976 US6724976B2]</u></font>
+| style="padding:0.079cm;"| Classes - Organic Semiconductor Devices
-|align = "center"|Communication system
+| style="padding:0.079cm;"| Any Classification
-|align = "center"|12/21/2000
+| style="padding:0.079cm;"| 313504 OR 257040 OR 257E51.018 OR 257E51.019 OR 257E51.020 OR 257E51.021 OR H01L002728 OR H01L002732
-|align = "center"|12/21/2020
+| style="padding:0.079cm;"| 27601
-|align = "center"| 1992-03-26 <nowiki>|</nowiki> 1992-09-25 <nowiki>|</nowiki> 1993-03-25 <nowiki>|</nowiki> 1993-09-27 <nowiki>|</nowiki> 1998-04-22 <nowiki>|</nowiki> 2000-02-16 <nowiki>|</nowiki> 2000-12-21
-|align = "center"|Matsushita Electric Industrial Co. Ltd., Osaka, JP
-|align = "center"|110
-|align = "center"|3
 |-
-|align = "center" bgcolor = "#B8CCE4"|3
+| style="background-color:#DCE6F1;padding:0.079cm;"| <center>3</center>
-|bgcolor = "#B8CCE4"|<font color="#0000FF"><u>[http://patft.uspto.gov/netacgi/nph-Parser?Sect1=PTO1&Sect2=HITOFF&d=PALL&p=1&u=%2Fnetahtml%2FPTO%2Fsrchnum.htm&r=1&f=G&l=50&s1=6633600.PN.&OS=PN/6633600&RS=PN/6633600 US6633600B2]</u></font>
+| style="background-color:#DCE6F1;padding:0.079cm;"| Top Emission keywords
-|align = "center" bgcolor = "#B8CCE4"|Traffic lights in a code division multiple access (CDMA) modem
+| style="background-color:#DCE6F1;padding:0.079cm;"| Claims, Title or Abstract
-|align = "center" bgcolor = "#B8CCE4"|4/24/2001
+| style="background-color:#DCE6F1;padding:0.079cm;"| ((top emitting) OR (toled) OR (teoled) OR (te-oled) OR (top ADJ2 emitting) OR (top ADJ2 emissive) OR (top ADJ2 emission)) ADJ ((light ADJ emitting ADJ polymer) OR (organic ADJ electro-luminescence ADJ diode) OR (ORganic ADJ electroluminescent ADJ diode) OR (ploymer ADJ light ADJ emitting ADJ diode) OR (ORganic ADJ light ADJ emitting ADJ device) OR (self-luminous ADJ diode) OR (oled) OR (organic led arrays) OR (organic ADJ light ADJ emitting ADJ diode) OR (organic ADJ light ADJ emission ADJ diode) OR (polymer ADJ light ADJ emission ADJ device) OR (organic ADJ electroluminescent device) OR (oel) OR (oleds))
-|align = "center" bgcolor = "#B8CCE4"|4/24/2021
+| style="background-color:#DCE6F1;padding:0.079cm;"| 1141
-|align = "center" bgcolor = "#B8CCE4"| 1995-06-30 <nowiki>|</nowiki> 1996-06-27 <nowiki>|</nowiki> 1998-02-17 <nowiki>|</nowiki> 1999-11-22 <nowiki>|</nowiki> 2001-04-24
-|align = "center" bgcolor = "#B8CCE4"|InterDigital Technology Corporation, Wilmington, DE, US
-|align = "center" bgcolor = "#B8CCE4"|85
-|align = "center" bgcolor = "#B8CCE4"|3
 |-
-|align = "center"|4
+| style="padding:0.079cm;"| <center>4</center>
-|<font color="#0000FF"><u>[http://patft.uspto.gov/netacgi/nph-Parser?Sect1=PTO1&Sect2=HITOFF&d=PALL&p=1&u=%2Fnetahtml%2FPTO%2Fsrchnum.htm&r=1&f=G&l=50&s1=7190966.PN.&OS=PN/7190966&RS=PN/7190966 US7190966B2]</u></font>
+| style="padding:0.079cm;"| OLED keywords
-|align = "center"|Method and apparatus for performing an access procedure
+| style="padding:0.079cm;"| Claims, Title or Abstract
-|align = "center"|6/29/2005
+| style="padding:0.079cm;"| ((organic OR (small adj molecule*1) OR polymer*1) adj (lightemitting OR (light adj (emitting OR emission)) OR electroluminescen*2 OR (electro adj luminescen*2))) NEAR3 diode*1) OR oled*2 OR smled*2 OR pled*2 OR (light adj (emitting OR emission) adj polymer*1) OR ((organic OR (small adj molecule*1) OR polymer*1) NEAR3 led*2)
-|align = "center"|6/29/2025
+| style="padding:0.079cm;"| 39392
-|align = "center"| 1996-06-27 <nowiki>|</nowiki> 1998-01-06 <nowiki>|</nowiki> 2000-11-22 <nowiki>|</nowiki> 2002-03-01 <nowiki>|</nowiki> 2003-03-26 <nowiki>|</nowiki> 2004-06-14 <nowiki>|</nowiki> 2005-06-29
-|align = "center"|InterDigital Technology Corporation, Wilmington, DE, US
-|align = "center"|91
-|align = "center"|4
 |-
-|align = "center" bgcolor = "#B8CCE4"|5
+| style="background-color:#DCE6F1;padding:0.079cm;"| <center>5</center>
-|bgcolor = "#B8CCE4"|<font color="#0000FF"><u>[http://patft.uspto.gov/netacgi/nph-Parser?Sect1=PTO1&Sect2=HITOFF&d=PALL&p=1&u=%2Fnetahtml%2FPTO%2Fsrchnum.htm&r=1&f=G&l=50&s1=7437177.PN.&OS=PN/7437177&RS=PN/7437177 US7437177B2]</u></font>
+| style="background-color:#DCE6F1;padding:0.079cm;"| Top emissioin OLED keywords
-|align = "center" bgcolor = "#B8CCE4"|Method employed by a base station for controlling initial power ramp-up using short codes
+| style="background-color:#DCE6F1;padding:0.079cm;"| Claims, Title or Abstract
-|align = "center" bgcolor = "#B8CCE4"|3/14/2008
+| style="background-color:#DCE6F1;padding:0.079cm;"| (((((organic OR (small ADJ molecule*1) OR polymer*1) ADJ (lightemitting OR (light ADJ (emitting OR emission)) OR electroluminescen*2 OR (electro ADJ luminescen*2))) NEAR3 diode*1) OR oled*2 OR smled*2 OR pled*2 OR (light ADJ (emitting OR emission) ADJ polymer*1) OR ((ORganic OR (small ADJ molecule*1) OR polymer*1) NEAR3 led*2)) AND ((top ADJ3 (emissi*2 OR emitting)))) OR (te ADJ oled*2)
-|align = "center" bgcolor = "#B8CCE4"|3/14/2028
+| style="background-color:#DCE6F1;padding:0.079cm;"| 429
-|align = "center" bgcolor = "#B8CCE4"| 1996-06-27 <nowiki>|</nowiki> 1998-01-06 <nowiki>|</nowiki> 2000-11-22 <nowiki>|</nowiki> 2002-03-01 <nowiki>|</nowiki> 2003-03-26 <nowiki>|</nowiki> 2004-06-14 <nowiki>|</nowiki> 2005-06-29 <nowiki>|</nowiki> 2008-03-14
-|align = "center" bgcolor = "#B8CCE4"|InterDigital Communications Corp., Wilmington, DE, US
-|align = "center" bgcolor = "#B8CCE4"|190
-|align = "center" bgcolor = "#B8CCE4"|4
 |-
-|}
+| style="padding:0.079cm;"| <center>6</center>
+| style="padding:0.079cm;"| Top Emission keywords AND OLED classes
+| style="padding:0.079cm;"| Combined query
+| style="padding:0.079cm;"| 1 AND 3
+| style="padding:0.079cm;"| 809
-'''Disclaimer:'''
+|-
-* Rating is given based on claims, no.of cited patents, expiry date and priority date
+| style="background-color:#DCE6F1;padding:0.079cm;"| <center>7</center>
-* Rating is done on a scale from 1 to 5
+| style="background-color:#DCE6F1;padding:0.079cm;"| LED Keywords
+| style="background-color:#DCE6F1;padding:0.079cm;"| Claims, Title or Abstract
+| style="background-color:#DCE6F1;padding:0.079cm;"| ((lightemitting OR (light ADJ (emitting OR emission)) OR electroluminescen*2 OR (electro ADJ luminescen*2)) NEAR3 diode*1) OR led*2 OR oled*2 OR smled*2 OR pled*2
+| style="background-color:#DCE6F1;padding:0.079cm;"| 1617014
-==Ranking of ETSI patents==
-{|border="2" cellspacing="0" cellpadding="4" width="100%"
-|align = "center" bgcolor = "#538ED5"|<font color="#FFFFFF">'''S.No'''</font>
-|align = "center" bgcolor = "#538ED5"|<font color="#FFFFFF">'''Patent/Publication No.'''</font>
-|align = "center" bgcolor = "#538ED5"|<font color="#FFFFFF">'''International Class (primary)'''</font>
-|align = "center" bgcolor = "#538ED5"|<font color="#FFFFFF">'''Assignee'''</font>
-|align = "center" bgcolor = "#538ED5"|<font color="#FFFFFF">'''Title'''</font>
-|align = "center" bgcolor = "#538ED5"|<font color="#FFFFFF">'''Publication Year'''</font>
-|align = "center" bgcolor = "#538ED5"|<font color="#FFFFFF">'''Priority Year(s)'''</font>
-|align = "center" bgcolor = "#538ED5"|<font color="#FFFFFF">'''Legal Status'''</font>
-|align = "center" bgcolor = "#538ED5"|<font color="#FFFFFF">'''Rank'''</font>
 |-
-|align = "center" bgcolor = "#B8CCE4"|1
+| style="padding:0.079cm;"| <center>8</center>
-|bgcolor = "#B8CCE4"|<font color="#0000FF"><u>[http://appft1.uspto.gov/netacgi/nph-Parser?Sect1=PTO1&Sect2=HITOFF&d=PG01&p=1&u=%2Fnetahtml%2FPTO%2Fsrchnum.html&r=1&f=G&l=50&s1=%2220100182939%22.PGNR.&OS=DN/20100182939&RS=DN/20100182939 US20100182939A1]</u></font>
+| style="padding:0.079cm;"| Top emission keywords AND Organic semiconductor devices classes AND Top emission keywords
-|bgcolor = "#B8CCE4"|H04J000300
+| style="padding:0.079cm;"| Combined query
-|bgcolor = "#B8CCE4"|Nokia Corporation
+| style="padding:0.079cm;"| 2 AND 7 AND 3
-|bgcolor = "#B8CCE4"|Configuration of multi-periodicity semi-persistent scheduling for time division duplex operation in a packet-based wireless communication system
+| style="padding:0.079cm;"| 224
-|align = "center" bgcolor = "#B8CCE4"|2010
-|bgcolor = "#B8CCE4" |2008 <nowiki>|</nowiki> 2009
-|bgcolor = "#B8CCE4"|Docketed New Case - Ready for Examination
-|align = "center" bgcolor = "#B8CCE4"|'''2'''
 |-
-|align = "center"|2
+| style="background-color:#DCE6F1;padding:0.079cm;"| <center>9</center>
-|<font color="#0000FF"><u>[http://v3.espacenet.com/searchResults?NUM=EP2181559A1&DB=EPODOC&submitted=true&locale=en_V3&ST=number&compact=false EP2181559A1]</u></font>
+| style="background-color:#DCE6F1;padding:0.079cm;"| Top emissioin OLED keywords
-|H04W003608
+| style="background-color:#DCE6F1;padding:0.079cm;"| Full patent spec.
-|Nokia Siemens Networks
+| style="background-color:#DCE6F1;padding:0.079cm;"| (((((organic OR (small ADJ molecule*1) OR polymer*1) ADJ (lightemitting OR (light ADJ (emitting OR emission)) OR electroluminescen*2 OR (electro ADJ luminescen*2))) near3 diode*1) OR oled*2 OR smled*2 OR pled*2 OR (light ADJ (emitting OR emission) ADJ polymer*1) OR ((organic OR (small ADJ molecule*1) OR polymer*1) near3 LED*2)) near3 ((top ADJ3 (emissi*2 OR emitting)))) OR (te ADJ oled*2)
-|Handover of a user equipment with forwarding and reusing a user equipment configuration
+| style="background-color:#DCE6F1;padding:0.079cm;"| 1506
-|align = "center"|2010
-|2007 <nowiki>|</nowiki> 2008 <nowiki>|</nowiki> 2008
-|Request for Examination Filed
-|align = "center"|'''2'''
 |-
-|align = "center" bgcolor = "#B8CCE4"|3
+| style="padding:0.079cm;"| <center>10</center>
-|bgcolor = "#B8CCE4"|<font color="#0000FF"><u>[http://v3.espacenet.com/searchResults?NUM=EP1961141A2&DB=EPODOC&submitted=true&locale=en_V3&ST=number&compact=false EP1961141A2]</u></font>
+| style="padding:0.079cm;"| German Keywords
-|bgcolor = "#B8CCE4"|H04L000100
+| style="padding:0.079cm;"| Full patent spec.
-|bgcolor = "#B8CCE4"|Ericsson AB
+| style="padding:0.079cm;"| ((top adj3 (emissi*2 OR emitting)) OR (Top NEAR2 emittierende*1)) NEAR3 ((organische NEAR2 (led*1 OR Leuchtdiode*1)) OR (Licht adj emittierende adj Polymer*1) OR oled*1)
-|bgcolor = "#B8CCE4"|Efficient channel quality reporting and link adaptation for multi-carrier broadband wireless communication
+| style="padding:0.079cm;"| 1430
-|align = "center" bgcolor = "#B8CCE4"|2008
-|bgcolor = "#B8CCE4"| 2005 <nowiki>|</nowiki> 2006 <nowiki>|</nowiki> 2006
-|bgcolor = "#B8CCE4"|Request for Examination Filed
-|align = "center" bgcolor = "#B8CCE4"|'''2'''
 |-
-|align = "center"|4
+| style="background-color:#DCE6F1;padding:0.079cm;"| <center>11</center>
-|<font color="#0000FF"><u>[http://appft1.uspto.gov/netacgi/nph-Parser?Sect1=PTO1&Sect2=HITOFF&d=PG01&p=1&u=%2Fnetahtml%2FPTO%2Fsrchnum.html&r=1&f=G&l=50&s1=%2220110029834%22.PGNR.&OS=DN/20110029834&RS=DN/20110029834 US20110029834A1]</u></font>
+| style="background-color:#DCE6F1;padding:0.079cm;"| French Keywords
-|H04L000118
+| style="background-color:#DCE6F1;padding:0.079cm;"| Full patent spec.
-|Alcatel-Lucent
+| style="background-color:#DCE6F1;padding:0.079cm;"| ((top ADJ3 (émissive OR émettant)) OR (démission ADJ top) OR (top ADJ3 (emissi*2 OR emitting))) NEAR3 ((diode*1 NEAR3 électroluminescente NEAR3 organique*1) OR ((Polymère*1 OR organiques) ADJ2 led*1) OR (polymère*1 NEAR3 émettant NEAR3 lumière) OR oled*1)
-|Method for operating harq buffer
+| style="background-color:#DCE6F1;padding:0.079cm;"| 1412
-|align = "center"|2011
-|2008 <nowiki>|</nowiki> 2009 <nowiki>|</nowiki> 2009
-|Docketed New Case - Ready for Examination
-|align = "center"|'''2'''
 |-
-|align = "center" bgcolor = "#B8CCE4"|5
+| style="padding:0.079cm;"| <center>12</center>
-|bgcolor = "#B8CCE4"|<font color="#0000FF"><u>[http://appft1.uspto.gov/netacgi/nph-Parser?Sect1=PTO1&Sect2=HITOFF&d=PG01&p=1&u=%2Fnetahtml%2FPTO%2Fsrchnum.html&r=1&f=G&l=50&s1=%2220090086710%22.PGNR.&OS=DN/20090086710&RS=DN/20090086710 US20090086710A1]</u></font>
+| style="padding:0.079cm;"|
-|bgcolor = "#B8CCE4"|H04J000324
+| style="padding:0.079cm;"| Combined query
-|bgcolor = "#B8CCE4"|Qualcomm Incorporated
+| style="padding:0.079cm;"| 5 OR 6 OR 8 OR 9 OR 10 OR 11
-|bgcolor = "#B8CCE4"|Method and apparatus for implementing lte rlc header formats
+| style="padding:0.079cm;"| 2113 ('''1132''' unique)
-|align = "center" bgcolor = "#B8CCE4"|2009
-|bgcolor = "#B8CCE4" |2007 <nowiki>|</nowiki> 2008
-|bgcolor = "#B8CCE4"|Docketed New Case - Ready for Examination
-|align = "center" bgcolor = "#B8CCE4"|'''3'''
 |-
+| style="background-color:#DCE6F1;padding:0.079cm;"| <center>13</center>
+| style="background-color:#DCE6F1;padding:0.079cm;"| Control Patents
+| style="background-color:#DCE6F1;padding:0.079cm;"| Patent/Publication No.
+| style="background-color:#DCE6F1;padding:0.079cm;"| WO2001057904A1 OR EP1029336A1 OR EP1489671A2 OR US20050236629A1 OR US20060043373A1 OR US20080169757A1 OR US6770502B2 OR US7002293B2 OR US7781961B2 OR US7791271B2
+| style="background-color:#DCE6F1;padding:0.079cm;"| 10
+|-
+| style="padding:0.079cm;"| <center>14</center>
+| style="padding:0.079cm;"|
+| style="padding:0.079cm;"| Combined query
+| style="padding:0.079cm;"| 12 AND 13
+| style="padding:0.079cm;"| 10
 |}
-'''Click here to see full list of [[Ranking of ETSI patents]]'''
+==Scientific Literature Search==
+{|border="2" cellspacing="0" cellpadding="4" width="100%"
+| style="background-color:#4F81BD;padding:0.079cm;"| <center>'''S.No'''</center>
+| style="background-color:#4F81BD;padding:0.079cm;"| <center>'''Database'''</center>
+| style="background-color:#4F81BD;padding:0.079cm;"| <center>'''Query'''</center>
+| style="background-color:#4F81BD;padding:0.079cm;"| <center>'''Limits by Date'''</center>
+| style="background-color:#4F81BD;padding:0.079cm;"| <center>'''No.Of Hit'''</center>
-'''Disclaimer: Patent ranking has been done according to the following logic:'''
+|-
-*'''Rank-1:'''  Granted +  LTE related (claims)
+| style="background-color:#4F81BD;padding:0.079cm;"| <center>'''1'''</center>
-*'''Rank-2''': Published + LTE related (claims)
+| style="background-color:#DCE6F1;padding:0.079cm;"| Google scholar
-*'''Rank-3''':  LTE related (Full spec )
+| style="background-color:#DCE6F1;padding:0.079cm;"| (Top emitting or top emission or top emissive) and ((organic light emitting diode) or (polymer led) or (light emitting polymer led) or (OLED))
-*'''Rank-4''': May be relevant and requires further analysis
+| style="background-color:#DCE6F1;padding:0.079cm;"| 1990-2011
-*'''Rank-5''': Abandoned or Expired
+| style="background-color:#DCE6F1;padding:0.079cm;"| 1840
+|}
-[[Image:ptrank1.jpg|centre|800px]]
+==Search in Japanese database==
-'''Note:''' Here a total of '''44''' patents from ETSI have been taken, out of which '''Qualcomm Incorporated''' has '''6''' patents, '''Alcatel-lucent''' has '''8''' patents, '''Ericsson AB''', '''Nokia corporation''', '''Nokia Siemens Networks'''  have '''10 each '''
+Database: IPDL (Industrial property digital library), Japan
-==MIMO(Multiple Input Multiple Output)==
+Date of search: 1900/01/01 to 2011/02/15
-Multiple input multiple output (MIMO) technologies introduced in LTE such as spatial multiplexing, transmit diversity, and beamforming are key components for providing higher peak rate at a better system efficiency, which are essential for supporting future broadband data service over wireless links.In Long Term Evolution (LTE), MIMO technologies have been widely used to improve downlink peak rate, cell coverage, as well as average cell throughput.
+{|border="2" cellspacing="0" cellpadding="4" width="50%"
+| style="background-color:#4F81BD;padding:0.079cm;"| <center>'''S.No.'''</center>
+| style="background-color:#4F81BD;padding:0.079cm;"| <center>'''Issue/Publication date'''</center>
+| style="background-color:#4F81BD;padding:0.079cm;"| <center>'''F-Term Theme'''</center>
+| style="background-color:#4F81BD;padding:0.079cm;"| <center>'''FI/F-term/Facet'''</center>
+| style="background-color:#4F81BD;padding:0.079cm;"| <center>'''Hits'''</center>
-To achieve this diverse set of objectives, LTE adopted various MIMO technologies including transmit diversity, single user (SU)-MIMO, multiuser (MU)-MIMO, closed-loop rank-1 precoding, and dedicated beamforming. [http://www.hindawi.com/journals/wcn/2009/302092.html MIMO in LTE]
+|-
-[[Image:mimo.jpg|thumb|700px|centre|[http://www.radion.co.in/mimo_basics MIMO working]]]
+| style="background-color:#4F81BD;padding:0.079cm;"| <center>'''1'''</center>
+| style="background-color:#DCE6F1;padding:0.079cm;"| 1900/01/01 to 2011/03/02
+| style="background-color:#DCE6F1;padding:0.079cm;"| 3K107
+| style="background-color:#DCE6F1;padding:0.079cm;"| DD03*[AA01+BB01+BB02+BB03+BB04+BB05+BB06+BB07+BB08+DD01+DD04+DD42+DD50+CC01+CC02+CC04+CC06+CC07+ <br>CC08+CC09+EE02+EE03+EE06+EE22+GG01+GG02+GG03+GG04+GG05+GG06+GG07+GG08+GG08]
+| style="background-color:#DCE6F1;padding:0.079cm;"| '''1596'''
+|}
+*F-Terms and theme used in search
+{|border="2" cellspacing="0" cellpadding="4" width="50%"
+| colspan="3"  style="background-color:#4F81BD;padding:0.079cm;"| <center>'''Japanese F-term search'''</center>
+| style="background-color:#4F81BD;padding:0.079cm;"| <center>'''Definition'''</center>
-==Concept table for MIMO==
+|-
+| style="background-color:#4F81BD;padding:0.079cm;"| <center>'''Sr. No.'''</center>
+| style="background-color:#DCE6F1;padding:0.079cm;"| '''F- Term theme'''
+| style="background-color:#DCE6F1;padding:0.079cm;"| 3K107
+| style="background-color:#DCE6F1;padding:0.079cm;"| Electroluminescent light sources
-{|border="2" cellspacing="0" cellpadding="4" width="100%"
-|align = "center" bgcolor = "#538ED5"|<font color="#FFFFFF">'''S.no'''</font>
-|align = "center" bgcolor = "#538ED5"|<font color="#FFFFFF">'''MIMO'''</font>
-|align = "center" bgcolor = "#538ED5"|<font color="#FFFFFF">'''OFDMA'''</font>
-|align = "center" bgcolor = "#538ED5"|<font color="#FFFFFF">'''SCFDMA'''</font>
-|align = "center" bgcolor = "#538ED5"|<font color="#FFFFFF">'''Interference'''</font>
-|align = "center" bgcolor = "#538ED5"|<font color="#FFFFFF">'''SDMA'''</font>
-|align = "center" bgcolor = "#538ED5"|<font color="#FFFFFF">'''HARQ'''</font>
-|align = "center" bgcolor = "#538ED5"|<font color="#FFFFFF">'''Multipath'''</font>
-|align = "center" bgcolor = "#538ED5"|<font color="#FFFFFF">'''LTE'''</font>
-|align = "center" bgcolor = "#538ED5"|<font color="#FFFFFF">'''Others'''</font>
 |-
-|align = "center" bgcolor = "#B8CCE4"|1
+| style="background-color:#4F81BD;padding:0.079cm;"| <center>1</center>
-|bgcolor = "#B8CCE4"|Multiple adj input<nowiki>*</nowiki> adj multiple adj output<nowiki>*</nowiki>
+| style="background-color:#DCE6F1;padding:0.079cm;"| '''F- Term'''
-|bgcolor = "#B8CCE4"|OFDM
+| style="background-color:#DCE6F1;padding:0.079cm;"| AA01
-|bgcolor = "#B8CCE4"|scfdma
+| style="background-color:#DCE6F1;padding:0.079cm;"| Organic electroluminescent element.
-|bgcolor = "#B8CCE4"|interference near3 mitigate<nowiki>*</nowiki>
-|bgcolor = "#B8CCE4"|Space adj2 time adj2 transmit adj2 diversity
-|bgcolor = "#B8CCE4"|HARQ
-|bgcolor = "#B8CCE4"|Multipath near2 effect<nowiki>*</nowiki>
-|bgcolor = "#B8CCE4"|LTE
-|bgcolor = "#B8CCE4"|channel adj2 quality adj2 indication adj2 channel<nowiki>*</nowiki>
 |-
-|align = "center"|2
+| style="background-color:#4F81BD;padding:0.079cm;"| <center>2</center>
-|Distributed adj transmission adj directional adj reception
+| style="background-color:#DCE6F1;padding:0.079cm;"| '''F- Term'''
-|(orthogonal adj frequency adj division) near2 multiplex<nowiki>*</nowiki>
+| style="background-color:#DCE6F1;padding:0.079cm;"| BB01
-|SINGLE adj CARRIER adj FREQUENCY adj DIVISION adj MULTIPLE adj ACCESS<nowiki>*</nowiki>
+| style="background-color:#DCE6F1;padding:0.079cm;"| Used in displays.
-|interference near3 cancel<nowiki>*</nowiki>
-|antenna adj2 multiplex<nowiki>*</nowiki>
-|Hybrid adj automatic adj repeat adj request
-|Multipath near2 propagat<nowiki>*</nowiki>
-|Long term evolution
-|CQICH
 |-
-|align = "center" bgcolor = "#B8CCE4"|3
+| style="background-color:#4F81BD;padding:0.079cm;"| <center>3</center>
-|bgcolor = "#B8CCE4"|DTDR
+| style="background-color:#DCE6F1;padding:0.079cm;"| '''F- Term'''
-|bgcolor = "#B8CCE4"|ofdma
+| style="background-color:#DCE6F1;padding:0.079cm;"| BB02
-|bgcolor = "#B8CCE4"|scfdm
+| style="background-color:#DCE6F1;padding:0.079cm;"| Used in Lights or light sources
-|bgcolor = "#B8CCE4"|interference near3 reduc<nowiki>*</nowiki>
-|bgcolor = "#B8CCE4"|SDMA
-|bgcolor = "#B8CCE4"|feedback adj2 mechani<nowiki>*</nowiki>
-|bgcolor = "#B8CCE4"|Multipath near2 phenomenon
-|bgcolor = "#B8CCE4"|Evolved packet system
-|bgcolor = "#B8CCE4"|Downlink adj2 Channel adj2 Descriptor adj2 message<nowiki>*</nowiki>
 |-
-|align = "center"|4
+| style="background-color:#4F81BD;padding:0.079cm;"| <center>4</center>
-|transmission adj2 diversit<nowiki>*</nowiki>
+| style="background-color:#DCE6F1;padding:0.079cm;"| '''F- Term'''
-|(orthogonal adj frequency adj division) near2 (multiple adj access)
+| style="background-color:#DCE6F1;padding:0.079cm;"| BB03
-|single adj carrier adj frequency adj division adj multiplex<nowiki>*</nowiki>
+| style="background-color:#DCE6F1;padding:0.079cm;"| Used in Backlights or the like for liquid crystals
-|interference near3 null<nowiki>*</nowiki>
-|Space adj2 division adj2 multiple adj2 access
-|Hybrid ARQ
-|
-|System architecture evolution
-|adaptive adj2 modulation adj2 coding
 |-
-|align = "center" bgcolor = "#B8CCE4"|5
+| style="background-color:#4F81BD;padding:0.079cm;"| <center>5</center>
-|bgcolor = "#B8CCE4"|SFBC
+| style="background-color:#DCE6F1;padding:0.079cm;"| '''F- Term'''
-|bgcolor = "#B8CCE4"|discrete adj multi adj tone
+| style="background-color:#DCE6F1;padding:0.079cm;"| BB04
-|bgcolor = "#B8CCE4"|SC-FDMA
+| style="background-color:#DCE6F1;padding:0.079cm;"| Used in printer heads
-|bgcolor = "#B8CCE4"|
-|bgcolor = "#B8CCE4"|Space adj2 domain adj2 multiple adj2 access
-|bgcolor = "#B8CCE4"|ARQ
-|bgcolor = "#B8CCE4"|
-|bgcolor = "#B8CCE4"|E-UTRA<nowiki>*</nowiki>
-|bgcolor = "#B8CCE4"|pre adj coding<nowiki>*</nowiki>3
 |-
-|align = "center"|6
+| style="background-color:#4F81BD;padding:0.079cm;"| <center>6</center>
-|Space adj2 frequency adj2 block adj coding
+| style="background-color:#DCE6F1;padding:0.079cm;"| '''F- Term'''
-|DMT
+| style="background-color:#DCE6F1;padding:0.079cm;"| BB05
-|DFT-spread adj OFDM
+| style="background-color:#DCE6F1;padding:0.079cm;"| Used in lasers
-|
-|plural<nowiki>*</nowiki> near2 (spatial adj streams
-|automatic adj repeat adj request
-|
-|Evolved UMTS terrestrial radio access
-|per adj2 antenna adj2 rate adj2 control
 |-
-|align = "center" bgcolor = "#B8CCE4"|7
+| style="background-color:#4F81BD;padding:0.079cm;"| <center>7</center>
-|bgcolor = "#B8CCE4"|SU adj2 MIMO
+| style="background-color:#DCE6F1;padding:0.079cm;"| '''F- Term'''
-|bgcolor = "#B8CCE4"|(adaptive ADJ modulation<nowiki>*</nowiki>)
+| style="background-color:#DCE6F1;padding:0.079cm;"| BB06
-|bgcolor = "#B8CCE4"|DFT-S-OFDMA
+| style="background-color:#DCE6F1;padding:0.079cm;"| Used in designs or advertisements
-|bgcolor = "#B8CCE4"|
-|bgcolor = "#B8CCE4"|spatial adj2 adaptation
-|bgcolor = "#B8CCE4"|Automatic Repeat Query
-|bgcolor = "#B8CCE4"|
-|bgcolor = "#B8CCE4"|
-|bgcolor = "#B8CCE4"|permutation adj2 mode adj2 selection
 |-
-|align = "center"|8
+| style="background-color:#4F81BD;padding:0.079cm;"| <center>8</center>
-|MU adj2 MIMO
+| style="background-color:#DCE6F1;padding:0.079cm;"| '''F- Term'''
-|sofdm
+| style="background-color:#DCE6F1;padding:0.079cm;"| BB07
-|Interleaved adj FDMA
+| style="background-color:#DCE6F1;padding:0.079cm;"| Used in timepieces
-|
-|adaptive adj2 transmi<nowiki>*</nowiki>
-|
-|
-|
-|
 |-
-|align = "center" bgcolor = "#B8CCE4"|9
+| style="background-color:#4F81BD;padding:0.079cm;"| <center>9</center>
-|bgcolor = "#B8CCE4"|space adj2 time adj2 cod<nowiki>*</nowiki>
+| style="background-color:#DCE6F1;padding:0.079cm;"| '''F- Term'''
-|bgcolor = "#B8CCE4"|
+| style="background-color:#DCE6F1;padding:0.079cm;"| BB08
-|bgcolor = "#B8CCE4"|Interleaved adj Frequency adj Division adj Multiple adj Access
+| style="background-color:#DCE6F1;padding:0.079cm;"| Used in on-board use
-|bgcolor = "#B8CCE4"|
-|bgcolor = "#B8CCE4"|Bell adj2 Labs adj2 Layer adj2 Space adj2 Time
-|bgcolor = "#B8CCE4"|
-|bgcolor = "#B8CCE4"|
-|bgcolor = "#B8CCE4"|
-|bgcolor = "#B8CCE4"|
 |-
-|align = "center"|10
+| style="background-color:#4F81BD;padding:0.079cm;"| <center>10</center>
-|multiple adj antenna<nowiki>*</nowiki>
+| style="background-color:#DCE6F1;padding:0.079cm;"| '''F- Term'''
-|
+| style="background-color:#DCE6F1;padding:0.079cm;"| DD01
-|IFDMA
+| style="background-color:#DCE6F1;padding:0.079cm;"| Having feature of all direction of light emission.
-|
-|spatial adj2 multiplex<nowiki>*</nowiki>
-|
-|
-|
-|
 |-
-|align = "center" bgcolor = "#B8CCE4"|11
+| style="background-color:#4F81BD;padding:0.079cm;"| <center>11</center>
-|bgcolor = "#B8CCE4"|multi adj antenna<nowiki>*</nowiki>
+| style="background-color:#DCE6F1;padding:0.079cm;"| '''F- Term'''
-|bgcolor = "#B8CCE4"|
+| style="background-color:#DCE6F1;padding:0.079cm;"| DD03
-|bgcolor = "#B8CCE4"|Discrete adj Fourier adj Transform adj Spread adj Orthogonal adj Frequency adj Multiple adj Access
+| style="background-color:#DCE6F1;padding:0.079cm;"| Having top emission.
-|bgcolor = "#B8CCE4"|
-|bgcolor = "#B8CCE4"|
-|bgcolor = "#B8CCE4"|
-|bgcolor = "#B8CCE4"|
-|bgcolor = "#B8CCE4"|
-|bgcolor = "#B8CCE4"|
 |-
-|align = "center"|12
+| style="background-color:#4F81BD;padding:0.079cm;"| <center>12</center>
-|multiple adj transmit<nowiki>*</nowiki> adj2 receive<nowiki>*</nowiki>
+| style="background-color:#DCE6F1;padding:0.079cm;"| '''F- Term'''
-|
+| style="background-color:#DCE6F1;padding:0.079cm;"| DD04
-|DFT- SOFDM
+| style="background-color:#DCE6F1;padding:0.079cm;"| Having double sided emission.
-|
-|
-|
-|
-|
-|
 |-
-|align = "center" bgcolor = "#B8CCE4"|13
+| style="background-color:#4F81BD;padding:0.079cm;"| <center>13</center>
-|bgcolor = "#B8CCE4"|plural<nowiki>*</nowiki> adj2 antenna<nowiki>*</nowiki>
+| style="background-color:#DCE6F1;padding:0.079cm;"| '''F- Term'''
-|bgcolor = "#B8CCE4"|
+| style="background-color:#DCE6F1;padding:0.079cm;"| DD42
-|bgcolor = "#B8CCE4"|
+| style="background-color:#DCE6F1;padding:0.079cm;"| Having Organic materials.
-|bgcolor = "#B8CCE4"|
-|bgcolor = "#B8CCE4"|
-|bgcolor = "#B8CCE4"|
-|bgcolor = "#B8CCE4"|
-|bgcolor = "#B8CCE4"|
-|bgcolor = "#B8CCE4"|
 |-
-|align = "center"|14
+| style="background-color:#4F81BD;padding:0.079cm;"| <center>14</center>
-|atleast adj2 two adj2 antenna<nowiki>*</nowiki>
+| style="background-color:#DCE6F1;padding:0.079cm;"| '''F- Term'''
-|
+| style="background-color:#DCE6F1;padding:0.079cm;"| DD50
-|
+| style="background-color:#DCE6F1;padding:0.079cm;"| Structured with Light emitting layers
-|
-|
-|
-|
-|
-|
 |-
-|align = "center" bgcolor = "#B8CCE4"|15
+| style="background-color:#4F81BD;padding:0.079cm;"| <center>15</center>
-|bgcolor = "#B8CCE4"|layer adj map<nowiki>*</nowiki>4
+| style="background-color:#DCE6F1;padding:0.079cm;"| '''F- Term'''
-|bgcolor = "#B8CCE4"|
+| style="background-color:#DCE6F1;padding:0.079cm;"| CC01
-|bgcolor = "#B8CCE4"|
+| style="background-color:#DCE6F1;padding:0.079cm;"| Having Light emitting layers
-|bgcolor = "#B8CCE4"|
-|bgcolor = "#B8CCE4"|
-|bgcolor = "#B8CCE4"|
-|bgcolor = "#B8CCE4"|
-|bgcolor = "#B8CCE4"|
-|bgcolor = "#B8CCE4"|
 |-
-|align = "center"|16
+| style="background-color:#4F81BD;padding:0.079cm;"| <center>16</center>
-|beam adj2 steer<nowiki>*</nowiki>
+| style="background-color:#DCE6F1;padding:0.079cm;"| '''F- Term'''
-|
+| style="background-color:#DCE6F1;padding:0.079cm;"| CC02
-|
+| style="background-color:#DCE6F1;padding:0.079cm;"| Light emission characteristics were improved.
-|
-|
-|
-|
-|
-|
 |-
-|align = "center" bgcolor = "#B8CCE4"|17
+| style="background-color:#4F81BD;padding:0.079cm;"| <center>17</center>
-|bgcolor = "#B8CCE4"|smart adj antenna<nowiki>*</nowiki>1
+| style="background-color:#DCE6F1;padding:0.079cm;"| '''F- Term'''
-|bgcolor = "#B8CCE4"|
+| style="background-color:#DCE6F1;padding:0.079cm;"| CC04
-|bgcolor = "#B8CCE4"|
+| style="background-color:#DCE6F1;padding:0.079cm;"| Has an effect on brightness.
-|bgcolor = "#B8CCE4"|
-|bgcolor = "#B8CCE4"|
-|bgcolor = "#B8CCE4"|
-|bgcolor = "#B8CCE4"|
-|bgcolor = "#B8CCE4"|
-|bgcolor = "#B8CCE4"|
 |-
-|align = "center"|18
+| style="background-color:#4F81BD;padding:0.079cm;"| <center>18</center>
-|spatial adj multiplex<nowiki>*</nowiki>3
+| style="background-color:#DCE6F1;padding:0.079cm;"| '''F- Term'''
-|
+| style="background-color:#DCE6F1;padding:0.079cm;"| CC06
-|
+| style="background-color:#DCE6F1;padding:0.079cm;"| Has an effect on efficiency
-|
-|
-|
-|
-|
-|
 |-
-|align = "center" bgcolor = "#B8CCE4"|19
+| style="background-color:#4F81BD;padding:0.079cm;"| <center>19</center>
-|bgcolor = "#B8CCE4"|multiple adj transmit<nowiki>*</nowiki> adj antenna<nowiki>*</nowiki>1
+| style="background-color:#DCE6F1;padding:0.079cm;"| '''F- Term'''
-|bgcolor = "#B8CCE4"|
+| style="background-color:#DCE6F1;padding:0.079cm;"| CC07
-|bgcolor = "#B8CCE4"|
+| style="background-color:#DCE6F1;padding:0.079cm;"| Has an effect on colours.
-|bgcolor = "#B8CCE4"|
-|bgcolor = "#B8CCE4"|
-|bgcolor = "#B8CCE4"|
-|bgcolor = "#B8CCE4"|
-|bgcolor = "#B8CCE4"|
-|bgcolor = "#B8CCE4"|
 |-
-|align = "center"|20
+| style="background-color:#4F81BD;padding:0.079cm;"| <center>20</center>
-|multiple adj receive<nowiki>*</nowiki> adj antenna<nowiki>*</nowiki>1
+| style="background-color:#DCE6F1;padding:0.079cm;"| '''F- Term'''
-|
+| style="background-color:#DCE6F1;padding:0.079cm;"| CC08
-|
+| style="background-color:#DCE6F1;padding:0.079cm;"| Has an effect on Colour purity; Colour temperatures; Light emission wavelengths, including UV
-|
-|
-|
-|
-|
-|
 |-
-|align = "center" bgcolor = "#B8CCE4"|21
+| style="background-color:#4F81BD;padding:0.079cm;"| <center>21</center>
-|bgcolor = "#B8CCE4"|Adaptive adj2 antenna adj2 steer<nowiki>*</nowiki>
+| style="background-color:#DCE6F1;padding:0.079cm;"| '''F- Term'''
-|bgcolor = "#B8CCE4"|
+| style="background-color:#DCE6F1;padding:0.079cm;"| CC09
-|bgcolor = "#B8CCE4"|
+| style="background-color:#DCE6F1;padding:0.079cm;"| Has colour balance feature
-|bgcolor = "#B8CCE4"|
-|bgcolor = "#B8CCE4"|
-|bgcolor = "#B8CCE4"|
-|bgcolor = "#B8CCE4"|
-|bgcolor = "#B8CCE4"|
-|bgcolor = "#B8CCE4"|
 |-
-|align = "center"|22
+| style="background-color:#4F81BD;padding:0.079cm;"| <center>22</center>
-|beam adj2 forming
+| style="background-color:#DCE6F1;padding:0.079cm;"| '''F- Term'''
-|
+| style="background-color:#DCE6F1;padding:0.079cm;"| EE02
-|
+| style="background-color:#DCE6F1;padding:0.079cm;"| Has white light emission.
-|
-|
-|
-|
-|
-|
 |-
-|align = "center" bgcolor = "#B8CCE4"|23
+| style="background-color:#4F81BD;padding:0.079cm;"| <center>23</center>
-|bgcolor = "#B8CCE4"|eigenmode adj2 multiplex<nowiki>*</nowiki>
+| style="background-color:#DCE6F1;padding:0.079cm;"| '''F- Term'''
-|bgcolor = "#B8CCE4"|
+| style="background-color:#DCE6F1;padding:0.079cm;"| EE03
-|bgcolor = "#B8CCE4"|
+| style="background-color:#DCE6F1;padding:0.079cm;"| Display having Passive matrices
-|bgcolor = "#B8CCE4"|
-|bgcolor = "#B8CCE4"|
-|bgcolor = "#B8CCE4"|
-|bgcolor = "#B8CCE4"|
-|bgcolor = "#B8CCE4"|
-|bgcolor = "#B8CCE4"|
 |-
+| style="background-color:#4F81BD;padding:0.079cm;"| <center>24</center>
+| style="background-color:#DCE6F1;padding:0.079cm;"| '''F- Term'''
+| style="background-color:#DCE6F1;padding:0.079cm;"| EE06
+| style="background-color:#DCE6F1;padding:0.079cm;"| Display having Active matrices
+|-
+| style="background-color:#4F81BD;padding:0.079cm;"| <center>25</center>
+| style="background-color:#DCE6F1;padding:0.079cm;"| '''F- Term'''
+| style="background-color:#DCE6F1;padding:0.079cm;"| EE22
+| style="background-color:#DCE6F1;padding:0.079cm;"| Display having with RGB picture elements having different areas
+|-
+| style="background-color:#4F81BD;padding:0.079cm;"| <center>26</center>
+| style="background-color:#DCE6F1;padding:0.079cm;"| '''F- Term'''
+| style="background-color:#DCE6F1;padding:0.079cm;"| GG01
+| style="background-color:#DCE6F1;padding:0.079cm;"| Dispaly having color filters.
+|-
+| style="background-color:#4F81BD;padding:0.079cm;"| <center>27</center>
+| style="background-color:#DCE6F1;padding:0.079cm;"| '''F- Term'''
+| style="background-color:#DCE6F1;padding:0.079cm;"| GG02
+| style="background-color:#DCE6F1;padding:0.079cm;"| Apparatus for deposition
+|-
+| style="background-color:#4F81BD;padding:0.079cm;"| <center>28</center>
+| style="background-color:#DCE6F1;padding:0.079cm;"| '''F- Term'''
+| style="background-color:#DCE6F1;padding:0.079cm;"| GG03
+| style="background-color:#DCE6F1;padding:0.079cm;"| Apparatus for dry methods
+|-
+| style="background-color:#4F81BD;padding:0.079cm;"| <center>29</center>
+| style="background-color:#DCE6F1;padding:0.079cm;"| '''F- Term'''
+| style="background-color:#DCE6F1;padding:0.079cm;"| GG04
+| style="background-color:#DCE6F1;padding:0.079cm;"| Apparatus for chemical vapour deposition
+|-
+| style="background-color:#4F81BD;padding:0.079cm;"| <center>30</center>
+| style="background-color:#DCE6F1;padding:0.079cm;"| '''F- Term'''
+| style="background-color:#DCE6F1;padding:0.079cm;"| GG05
+| style="background-color:#DCE6F1;padding:0.079cm;"| Apparatus for evaporation
+|-
+| style="background-color:#4F81BD;padding:0.079cm;"| <center>31</center>
+| style="background-color:#DCE6F1;padding:0.079cm;"| '''F- Term'''
+| style="background-color:#DCE6F1;padding:0.079cm;"| GG06
+| style="background-color:#DCE6F1;padding:0.079cm;"| Apparatus for sputtering
+|-
+| style="background-color:#4F81BD;padding:0.079cm;"| <center>32</center>
+| style="background-color:#DCE6F1;padding:0.079cm;"| '''F- Term'''
+| style="background-color:#DCE6F1;padding:0.079cm;"| GG07
+| style="background-color:#DCE6F1;padding:0.079cm;"| Apparatus for wet methods
+|-
+| style="background-color:#4F81BD;padding:0.079cm;"| <center>33</center>
+| style="background-color:#DCE6F1;padding:0.079cm;"| '''F- Term'''
+| style="background-color:#DCE6F1;padding:0.079cm;"| GG08
+| style="background-color:#DCE6F1;padding:0.079cm;"| Apparatus for printing
+|-
+| style="background-color:#4F81BD;padding:0.079cm;"| <center>34</center>
+| style="background-color:#DCE6F1;padding:0.079cm;"| '''F- Term'''
+| style="background-color:#DCE6F1;padding:0.079cm;"| GG08
+| style="background-color:#DCE6F1;padding:0.079cm;"| Apparatus for Inkjet
 |}
-[[category:Word2MediaWikiPlus]]
+=Taxonomy=
+<mm>[[OLED Taxonomy.mm]]</mm>
-==Control patents==
+=Sample Analysis=
+==Patent Analysis==
+A sample of 200 patents from the search is analyzed based on the taxonomy. Provided a link below for sample spread sheet analysis for Top Emission OLED.
-*Control patents are mostly used
+{|border="2" cellspacing="0" cellpadding="4" width="100%"
-** to prepare concepts
+| style="background-color:#4F81BD;padding:0.079cm;"| <center>'''S.No'''</center>
-** to search classes, and
+| style="background-color:#4F81BD;padding:0.079cm;"| <center>'''Patent/Publication No.'''</center>
-** to verify the search strategy
+| style="background-color:#4F81BD;padding:0.079cm;"| <center>'''Date of Publication'''</center>
-*Control patents are found by running a query with narrow keywords, and in this process litigation's and file wrappers are also looked at.
+| style="background-color:#4F81BD;padding:0.079cm;"| <center>'''Assignee / Applicant'''</center>
-{|border="2" cellspacing="0" width="100%"
+| style="background-color:#4F81BD;padding:0.079cm;"| <center>'''Title'''</center>
-|align = "center" bgcolor = "#538ED5"|<font color="#FFFFFF">'''S.No'''</font>
+| style="background-color:#4F81BD;padding:0.079cm;"| <center>'''Problem'''</center>
-|align = "center" bgcolor = "#538ED5"|<font color="#FFFFFF">'''Patent/Publication No.'''</font>
+| style="background-color:#4F81BD;padding:0.079cm;"| <center>'''Solution'''</center>
-|align = "center" bgcolor = "#538ED5"|<font color="#FFFFFF">'''Title'''</font>
-|align = "center" bgcolor = "#538ED5"|<font color="#FFFFFF">'''Abstract'''</font>
 |-
-|align = "center" bgcolor = "#B8CCE4"|1
+| style="background-color:#DCE6F1;padding:0.079cm;"| <center>'''1'''</center>
-|align = "center" bgcolor = "#B8CCE4"|<font color="#0000FF"><u>[http://patft.uspto.gov/netacgi/nph-Parser?Sect1=PTO1&Sect2=HITOFF&d=PALL&p=1&u=%2Fnetahtml%2FPTO%2Fsrchnum.htm&r=1&f=G&l=50&s1=6873606.PN.&OS=PN/6873606&RS=PN/6873606 US6873606 ]</u></font>
+| style="background-color:#DCE6F1;padding:0.079cm;"| <center>US7692191B2</center>
-|bgcolor = "#B8CCE4"|Rate adaptive transmission scheme for MIMO systems
+| style="background-color:#DCE6F1;padding:0.079cm;"| <center>04/06/2010</center>
-|bgcolor = "#B8CCE4"|A rate adaptive transmission scheme for MIMO systems, which can transmit a variable number of data symbol streams, provide transmit diversity for each data symbol stream, and fully utilize the total transmit power of the system and the full power of each antenna. In one method, at least one data symbol stream is received for transmission from a plurality of antennas. Each data symbol stream is scaled with a respective weight corresponding to the amount of transmit power allocated to that stream. The scaled data symbol stream(s) are multiplied with a transmit basis matrix to provide a plurality of transmit symbol streams for the plurality of antennas. The transmit basis matrix (e.g., a Walsh-Hadamard matrix or a DFT matrix) is defined such that each data symbol stream is transmitted from all antennas and each transmit symbol stream is transmitted at (or near) the full power for the associated antenna.
+| style="background-color:#DCE6F1;padding:0.079cm;"| Samsung Mobile Display Co., Ltd.
+| style="background-color:#DCE6F1;padding:0.079cm;"| Top-emitting organic light emitting device
+| style="background-color:#DCE6F1;padding:0.079cm;"| In the conventional top-emitting organic light emitting device, each pixel electrode is designed to have a minimum width, and neighboring pixel electrodes are designed to be widely spaced apart from each other by as much as 17 .mu.m. Therefore, the wide space between the pixel electrodes leaks emitted light, thereby deteriorating the voltage-current characteristics of the thin film transistors i.e., increasing photo-leakage.
+| style="background-color:#DCE6F1;padding:0.079cm;"| In this patent the top-emitting organic light emitting device has maximized the width of a pixel electrode , thereby enhancing aperture ratio. Furthermore, the pixel electrode is arranged to overlap all thin film transistors, so that light is prevented from leaking through a space between neighboring pixel electrodes, thereby reducing photo-leakage of the thin film transistor.
 |-
-|align = "center"|2
+| style="padding:0.079cm;"| <center>'''2'''</center>
-|align = "center"|<font color="#0000FF"><u>[http://patft.uspto.gov/netacgi/nph-Parser?Sect1=PTO1&Sect2=HITOFF&d=PALL&p=1&u=%2Fnetahtml%2FPTO%2Fsrchnum.htm&r=1&f=G&l=50&s1=7233625.PN.&OS=PN/7233625&RS=PN/7233625 US7233625 ]</u></font>
+| style="padding:0.079cm;"| <center>US7554259B2</center>
-|Preamble design for multiple input--multiple output (MIMO), orthogonal frequency division multiplexing (OFDM) system
+| style="padding:0.079cm;"| <center>06/30/2009</center>
-|One or more preambles are inserted into frames of Orthogonal Frequency Multiplexing (OFDM)-Multiple Input, Multiple Output (MIMO) signals. The preamble is received by the antennas of a receiver, decoded and compared to known values to provide synchronization, framing, channels estimation, offsets and other corrections to the transmitted signal.
+| style="padding:0.079cm;"| Sanyo Electric Co., Ltd.
+| style="padding:0.079cm;"| Light emitting display apparatus having excellent color reproducibility
+| style="padding:0.079cm;"| Organic electroluminescence panel obtains white light by synthesizing two lights each having complementary color to the other, and the three primary colors differ in luminous intensity. Therefore it is difficult to set chromaticity of white light to desired level. And even after color-filter transmission, red light and blue light will have stronger luminous intensity than green light.
+| style="padding:0.079cm;"| The present invention objective provide a light emitting display apparatus having excellent color reproducibility. Organic light emitting layer that synthesizes two or more complementary colors of light that are complementary to each other thereby producing white light. It has a resonant structure by which a resonant wavelength is set to a predetermined wavelength, and outputs the white light via the resonant structure where the predetermined wavelength substantially coincides with a wavelength corresponding to a primary color whose luminous intensity is uniform.With the stated construction, non-uniformity in luminous intensity among three primary colors is alleviated by means of amplified luminous intensity due to resonance. This will help obtain white light in which the primary colors are balanced well.
 |-
-|align = "center" bgcolor = "#B8CCE4"|3
+| style="background-color:#DCE6F1;padding:0.079cm;"| <center>'''3'''</center>
-|align = "center" bgcolor = "#B8CCE4"|<font color="#0000FF"><u>[http://patft.uspto.gov/netacgi/nph-Parser?Sect1=PTO1&Sect2=HITOFF&d=PALL&p=1&u=%2Fnetahtml%2FPTO%2Fsrchnum.htm&r=1&f=G&l=50&s1=7248559.PN.&OS=PN/7248559&RS=PN/7248559 US7248559 ]</u></font>
+| style="background-color:#DCE6F1;padding:0.079cm;"| <center>US7332859B2</center>
-|bgcolor = "#B8CCE4"|Scattered pilot pattern and channel estimation method for MIMO-OFDM systems
+| style="background-color:#DCE6F1;padding:0.079cm;"| <center>02/19/2008</center>
-|bgcolor = "#B8CCE4"|A method and apparatus are provided for reducing the number of pilot symbols within a MIMO-OFDM communication system, and for improving channel estimation within such a system. For each transmitting antenna in an OFDM transmitter, pilot symbols are encoded so as to be unique to the transmitting antenna. The encoded pilot symbols are then inserted into an OFDM frame to form a diamond lattice, the diamond lattices for the different transmitting antennae using the same frequencies but being offset from each other by a single symbol in the time domain. At the OFDM receiver, a channel response is estimated for a symbol central to each diamond of the diamond lattice using a two-dimensional interpolation. The estimated channel responses are smoothed in the frequency domain. The channel responses of remaining symbols are then estimated by interpolation in the frequency domain.
+| style="background-color:#DCE6F1;padding:0.079cm;"| Canon Kabushiki Kaisha
+| style="background-color:#DCE6F1;padding:0.079cm;"| Organic luminescence device with anti-reflection layer and organic luminescence device package
+| style="background-color:#DCE6F1;padding:0.079cm;"| In organic luminescence device, the transparent electrode is formed by a material of a refractive index higher than that of air or nitrogen, constituting the external environment of the organic luminescence device. Therefore, the light emitted from the light emitting layer is reflected at a light emitting surface of the transparent electrode , namely at the interface between the transparent electrode and the air constituting the external environment in FIG. 1. For this reason, such organic luminescence device has been associated with a low efficiency of light emission to the exterior.
+| style="background-color:#DCE6F1;padding:0.079cm;"| The present invention is to provide an organic luminescence device of a high light-emitting efficiency to the exterior and an organic luminescence device of a satisfactory contrast. A case holding the organic luminescence device in an internal holding space, in which a light emitted from the organic luminescence device, is emitted to the exterior through a light emitting side of the case; wherein anti-reflection means is provided on a light-emitting face on the light-emitting side among faces constituting the internal holding space of the case
+| colspan="7"  style="padding:0.079cm;"|
 |-
-|align = "center"|4
+| style="padding:0.079cm;"| <center>'''4'''</center>
-|align = "center"|<font color="#0000FF"><u>[http://patft.uspto.gov/netacgi/nph-Parser?Sect1=PTO1&Sect2=HITOFF&d=PALL&p=1&u=%2Fnetahtml%2FPTO%2Fsrchnum.htm&r=1&f=G&l=50&s1=7548506.PN.&OS=PN/7548506&RS=PN/7548506 US7548506 ]</u></font>
+| style="padding:0.079cm;"| <center>US6885157B1</center>
-|System access and synchronization methods for MIMO OFDM communications systems and physical layer packet and preamble design
+| style="padding:0.079cm;"| <center>04/26/2005</center>
-|A method and apparatus are provided for performing acquisition, synchronization and cell selection within an MIMO-OFDM communication system. A coarse synchronization is performed to determine a searching window. A fine synchronization is then performed by measuring correlations between subsets of signal samples, whose first signal sample lies within the searching window, and known values. The correlations are performed in the frequency domain of the received signal. In a multiple-output OFDM system, each antenna of the OFDM transmitter has a unique known value. The known value is transmitted as pairs of consecutive pilot symbols, each pair of pilot symbols being transmitted at the same subset of sub-carrier frequencies within the OFDM frame.
+| style="padding:0.079cm;"| Eastman Kodak Company
+| style="padding:0.079cm;"| Integrated touch screen and OLED flat-panel display
+| style="padding:0.079cm;"| It has the problem of multiple external electrical connections by employing a flat-panel display having a substrate that extends beyond the substrate of the resistive touch screen.
+| style="padding:0.079cm;"| The present invention has the advantage that it reduces the costs and improves the reliability and performance of a touch screen that is used with an OLED flat-panel display by integrating cable connections on a single substrate and providing touch screen signal processing on the display substrate.
+| colspan="7"  style="padding:0.079cm;"|
 |-
-|align = "center" bgcolor = "#B8CCE4"|5
+| style="background-color:#DCE6F1;padding:0.079cm;"| <center>'''5'''</center>
-|align = "center" bgcolor = "#B8CCE4"|<font color="#0000FF"><u>[http://patft.uspto.gov/netacgi/nph-Parser?Sect1=PTO1&Sect2=HITOFF&d=PALL&p=1&u=%2Fnetahtml%2FPTO%2Fsrchnum.htm&r=1&f=G&l=50&s1=7120395.PN.&OS=PN/7120395&RS=PN/7120395 US7120395 ]</u></font>
+| style="background-color:#DCE6F1;padding:0.079cm;"| <center>US6069443A</center>
-|bgcolor = "#B8CCE4"|MIMO communications
+| style="background-color:#DCE6F1;padding:0.079cm;"| <center>05/30/2000</center>
-|bgcolor = "#B8CCE4"|The present invention allows a wireless communication system, such as a base station, to select N antennas from an associated group of M antennas for transmitting multiple streams of data to a given user. Based on the channel conditions between the M antennas of the wireless communication system and the multiple antennas at the receiver, the N antennas to use for transmission are selected to enhance channel capacity, signal-to-noise ratios, or a combination thereof. The channel conditions are measured at the receiver, and may be sent back to the wireless communication system for processing or may be processed at the receiver, wherein instructions are transmitted back to the wireless communication system to control antenna selection.
+| style="background-color:#DCE6F1;padding:0.079cm;"| FED Corporation
+| style="background-color:#DCE6F1;padding:0.079cm;"| Passive matrix OLED display
+| style="background-color:#DCE6F1;padding:0.079cm;"| The disadvantage of oxygen and moisture penetration into the interior of the organic light emitting device is the potential to form metal oxides at the metal-organic interface. These metal oxide impurities may allow separation of the cathode or anode and the organic in a matrix . This can result in the formation of dark non-emitting spots (i.e., no illumination).Edge shorting between the cathode and anode layers is a current problem affecting most conventional organic light emitting display devices. This edge shorting reduces the illuminating potential of the display devices.
+| style="background-color:#DCE6F1;padding:0.079cm;"| The present invention to provide an insulator layer to minimize edge shorts between lines by separating the OLED layer and the electrode elements. It also provides a sealing structure to isolate the OLED layer from moisture and other contaminants.
+| colspan="7"  style="padding:0.079cm;"|
 |-
+| style="padding:0.079cm;"| <center>'''6'''</center>
+| style="padding:0.079cm;"| <center>US20110031511A1</center>
+| style="padding:0.079cm;"| <center>02/10/2011</center>
+| style="padding:0.079cm;"| None
+| style="padding:0.079cm;"| ORGANIC LIGHT EMITTING DIODE DISPLAY AND METHOD OF MANUFACTURING THE SAME
+| style="padding:0.079cm;"| In the organic light emitting layer, as it is easy to transfer energy in an interface between a light emitting layer and a hole transfer layer, a light emitting efficiency and lifetime of the OLED display are reduced because of an energy loss of triplet inside the OLED display.
+| style="padding:0.079cm;"| An interface of the light emitting layer can be improved by forming the inorganic oxide layer between the hole transport layer and the light emitting layer. Further, an energy loss of triplet can be prevented, and the emission efficiency and lifetime can be improved.
+| colspan="7"  style="padding:0.079cm;"|
+|-
+| style="background-color:#DCE6F1;padding:0.079cm;"| <center>'''7'''</center>
+| style="background-color:#DCE6F1;padding:0.079cm;"| <center>US20070153051A1</center>
+| style="background-color:#DCE6F1;padding:0.079cm;"| <center>07/05/2007</center>
+| style="background-color:#DCE6F1;padding:0.079cm;"| Samsung Electronics Co., Ltd.
+| style="background-color:#DCE6F1;padding:0.079cm;"| Manufacturing flat panel displays with inkjet printing systems
+| style="background-color:#DCE6F1;padding:0.079cm;"| For manufacture of certain flat panel display devices, such as LCDs or OLED displays, various thin film patterns are formed on panel substrates of the devices, typically using photolithography processes. However, as displays become larger, the amount of material that must be deposited on substrates to form the thin film patterns also becomes larger, inturn increases the manufacturing costs of the panels.
+| style="background-color:#DCE6F1;padding:0.079cm;"| Inkjet printing systems have been developed for forming the thin film patterns on the substrates by depositing them on the substrates in the form of special inks. These systems deposit the ink on the substrate through an inkjet head. However, the inkjet head includes a plurality of nozzles, and if only one of these nozzles becomes dysfunctional, the number of passes that the inkjet printing head must make increases. As a result, processing time and costs are substantially increased.
+| colspan="7"  style="padding:0.079cm;"|
+|-
+| style="padding:0.079cm;"| <center>'''8'''</center>
+| style="padding:0.079cm;"| <center>US6911671B2</center>
+| style="padding:0.079cm;"| <center>06/28/2005</center>
+| style="padding:0.079cm;"| Eastman Kodak Company
+| style="padding:0.079cm;"| Device for depositing patterned layers in OLED displays
+| style="padding:0.079cm;"| To achieve color pixelation in OLED imaging panels, fabrication of a multicolor OLED imaging panel using a shadow masking method is used. A multicolor organic electroluminescent ("EL") medium is vapor deposited and patterned by controlling an angular position of a substrate with respect to a deposition vapor stream. The positioning an element in direct contact with a surface of a substrate can invite problems of abrasion, distortion, or partial lifting, this may cause abrasion, distortion, or partial lifting of the first-color pattern.
+| style="padding:0.079cm;"| The present invention is that a pattern of vaporized material, such as organic material, can be deposited without the use of shadow mask.Another feature is that a plurality of devices can be used for simultaneously depositing different organic materials. Such organic materials can emit light in different ranges of the spectrum.
+| colspan="7"  style="padding:0.079cm;"|
+|-
+| style="background-color:#DCE6F1;padding:0.079cm;"| <center>'''9'''</center>
+| style="background-color:#DCE6F1;padding:0.079cm;"| <center>US7218295B2</center>
+| style="background-color:#DCE6F1;padding:0.079cm;"| <center>05/15/2007</center>
+| style="background-color:#DCE6F1;padding:0.079cm;"| AU Optronics Corp.
+| style="background-color:#DCE6F1;padding:0.079cm;"| Driving method for active matrix OLED display
+| style="background-color:#DCE6F1;padding:0.079cm;"| In one display frame, the current received by the OLED is fixed.The driving method used previously accumulates carriers inside the OLED which reduce the life of the OLEDs. Moreover, the voltage across the OLED gradually increases over timewhich inturn increases power. This effects the OLED over time.
+| style="background-color:#DCE6F1;padding:0.079cm;"| The present invention uses a driving method to neutralize carrier accumulation in the OLED, thereby reducing the increase in voltage and minimizing the increase in power consumption across both ends of the OLED over time, further increasing the life of the OLED.
+| colspan="7"  style="padding:0.079cm;"|
+|-
+| style="padding:0.079cm;"| <center>'''10'''</center>
+| style="padding:0.079cm;"| <center>US7067170B2</center>
+| style="padding:0.079cm;"| <center>06/27/2006</center>
+| style="padding:0.079cm;"| Eastman Kodak Company
+| style="padding:0.079cm;"| Depositing layers in OLED devices using viscous flow
+| style="padding:0.079cm;"| To achieve color pixelation in OLED imaging panels, fabrication of a multicolor OLED imaging panel using a shadow masking method is used. A multicolor organic electroluminescent ("EL") medium is vapor deposited and patterned by controlling an angular position of a substrate with respect to a deposition vapor stream. The positioning an element in direct contact with a surface of a substrate can invite problems of abrasion, distortion, or partial lifting, this may cause abrasion, distortion, or partial lifting of the first-color pattern.
+| style="padding:0.079cm;"| The present invention is that the method of color pixelating an organic layer includes providing a plurality of vapor sources disposed outside of a deposition chamber for generating vapors of organic materials, and connecting such vapor sources to a manifold disposed in the chamber. By using vapor deposition method, we can eliminate precision shadow masks.
+| colspan="7"  style="padding:0.079cm;"|
 |}
-'''Click here to see full list of [[LTE control patents]]'''
+Click '''[[media:sample analysis sheet oled.xls|here]]''' to view the detailed analysis sheet for doubly-fed induction generators patent analysis.
-=='''[[Search Strategy - MIMO]]'''==
+==Article Analysis==
+{|border="2" cellspacing="0" cellpadding="4" width="100%"
+| style="background-color:#4F81BD;padding:0.079cm;"| <center>'''S.No.'''</center>
+| style="background-color:#4F81BD;padding:0.079cm;"| <center>'''Title'''</center>
+| style="background-color:#4F81BD;padding:0.079cm;"| <center>'''Authors'''</center>
+| style="background-color:#4F81BD;padding:0.079cm;"| <center>'''Publication date'''</center>
+| style="background-color:#4F81BD;padding:0.079cm;"| <center>'''Journal/Conference'''</center>
+| colspan="2"  style="background-color:#4F81BD;padding:0.079cm;"| <center>Dolcera summery.</center>
+|-
+| style="background-color:#DCE6F1;padding:0.079cm;"| <center>'''1'''</center>
+| style="background-color:#DCE6F1;padding:0.079cm;"| [http://ieeexplore.ieee.org/xpl/freeabs_all.jsp?arnumber=979337 Application of Screen Printing in the Fabricationof Organic Light-Emitting Devices]
+| style="background-color:#DCE6F1;padding:0.079cm;"| Dino A. Pardo, Ghassan E. Jabbour,* andNasser Peyghambarian
+| style="background-color:#DCE6F1;padding:0.079cm;"| 01/27/2000
+| style="background-color:#DCE6F1;padding:0.079cm;"| Optical Sciences Center, University of Arizona.IEEE 27 Jan 2000
+| style="background-color:#DCE6F1;padding:0.079cm;"| This article explains the screen printing technique which deposits organic active layer having a thickness of several tens of nanometers and acting as a hole-transport layer (HTL) in multilayer OLEDs. The resulting devices emit<nowiki>light at low voltage (<5 V) and have a peak external quantum efficiency of 0.91 %.</nowiki>
+|-
+| style="padding:0.079cm;"| <center>'''2'''</center>
+| style="padding:0.079cm;"| [http://onlinelibrary.wiley.com/doi/10.1002/(SICI)1521-4095(199906)11:9%3C734::AID-ADMA734%3E3.0.CO;2-D/abstract Multicolor Organic Light-Emitting DiodesProcessed by Hybrid Inkjet Printing]
+| style="padding:0.079cm;"| Shun-Chi Chang, Jie Liu, Jayesh Bharathan,Yang Yang,* Jun Onohara and Junji Kido
+| style="padding:0.079cm;"| 08/07/1999
+| style="padding:0.079cm;"| Department of Materials Science and EngineeringUniversity of California at Los Angeles. willey 8 Jul 1999
+| style="padding:0.079cm;"| This article presents a multicolor patterning technique to produce controllable patterning of red-green-blue OLEDs with fine pixel displays. The LEDs comprise bilayer structures of red and green dopants with inkjet-printed onto a film of the blue-emitting semiconducting polymer, the latter serving as the hole-transport layer.
+|-
+| style="background-color:#DCE6F1;padding:0.079cm;"| <center>'''3'''</center>
+| style="background-color:#DCE6F1;padding:0.079cm;"| [http://onlinelibrary.wiley.com/doi/10.1002/pi.1974/abstract Organic light-emitting diode (OLED)technology: materials, devices and displaytechnologies]
+| style="background-color:#DCE6F1;padding:0.079cm;"| Bernard Geffroy, Philippe le Roy and Christophe Prat
+| style="background-color:#DCE6F1;padding:0.079cm;"| 06/02/2006
+| style="background-color:#DCE6F1;padding:0.079cm;"| Laboratoire Cellules et Composants. willey 6 Feb 2006
+| style="background-color:#DCE6F1;padding:0.079cm;"| This article presents an overview of OLED's over LCD's. OLED'S have a thickness, currently less than 2 mm. Having high contrast ratio is also a strong point of OLED and also in fast response time.OLEDs for flat-panel display applications are their self-emitting property, high luminous efficiency, full-colour capability, wide viewing angle, high contrast,low power consumption, low weight, potentially large area colour displays and flexibility.
+|-
+| style="padding:0.079cm;"| <center>'''4'''</center>
+| style="padding:0.079cm;"| [http://www.springerlink.com/content/q34n0017t30373q6/ Organic/polymeric electroluminescent devices processed by hybrid ink-jet printing]
+| style="padding:0.079cm;"| Yang Yang, Shun-Chi Chang, Jayesh Bharathan and Jie Liu
+| style="padding:0.079cm;"| 04/05/1999
+| style="padding:0.079cm;"| Journal of Materials Science: Materials in Electronics Volume 11, Number 2,
+| style="padding:0.079cm;"| The HIJP concept is a unique approach for fabricating polymer and organic electronic devices. One is able to apply this technology for the deposition of various functional materials such as charge-injection layers, charge-blocking layers, and multicolor polymer/organic emissive layers. It can be used for the fabrication of logos, indicator lights, multicolor displays and also in bio-medical applications such as biosensors for low cost diagnostics.
-==Company wise distribution of IP==
+|-
-[[Image:lte-all.jpg|thumb|1100px|centre|Company wise distribution of IP]]
+| style="background-color:#DCE6F1;padding:0.079cm;"| <center>'''5'''</center>
+| style="background-color:#DCE6F1;padding:0.079cm;"| [http://onlinelibrary.wiley.com/doi/10.1002/adma.200400684/abstract White Organic Light-Emitting Devices for Solid-State Lighting]
+| style="background-color:#DCE6F1;padding:0.079cm;"| B. W. D'Andrade, S. R. Forrest
+| style="background-color:#DCE6F1;padding:0.079cm;"| 14/10/2004
+| style="background-color:#DCE6F1;padding:0.079cm;"| Department of Electrical Engineering, Princeton University Willey 14 OCT 2004
+| style="background-color:#DCE6F1;padding:0.079cm;"| This article presents the WOLEDs increasing display applications for use primarily as liquid-crystal display backlights. They have achieved high material purity, low cost, high brightness,color quality and long operational life-times.
-'''Note:'''
+|-
-* The subsidiaries of Nokia includes : Nokia Telecommunication Oy and Nokia Siemens.
+| style="padding:0.079cm;"| <center>'''6'''</center>
-* The subsidiaries of Ericsson/LM Ericsson includes : Ericsson GE Mobile Communications Inc, ST-Ericsson, Sony Ericcson.
+| style="padding:0.079cm;"| [http://www.nature.com/nature/journal/v459/n7244/full/nature08003.html White organic light-emitting diodes with fluorescent tube efficiency]
-* The Subsidiaries of Alcatel includes : Alcatel-Lucent, Alcatel Shangai bell company, Alcatel Transmission, Lucent Technologies, CIT Alcatel.
+| style="padding:0.079cm;"| Sebastian Reineke, Frank Lindner, Gregor Schwartz, Nico Seidler, Karsten Walzer
-* The Subsidiaries of NTT includes : Nippondenso Co, NTT Docomo.
+| style="padding:0.079cm;"| 14/05/2009
-* The subsidiaries of NEC Corp includes : NEC Access technica Ltd.,NEC Laboratories.
+| style="padding:0.079cm;"| Institute of Applied Photophysics. Vol 459 Macmillan Pub
-* The subsidiaries of Phlilps  includes : Philips Electronics, Philips Intellectual property & standards.
+| style="padding:0.079cm;"| This article presents an WOLED havinh high internal quantum efficiencies for the con-version of electrical energy to light have been realized by focussing on reducing energetic and ohmic losses that occur during electron–photon conversion.This can be achieved by improved OLED structure which reaches fluorescent tube efficiency. By combining a care-fully chosen emitter layer with high-refractive-index substrates and using a periodic outcoupling structure
-* The subsidiaries of Fujistu   includes : Fujistu ten Limited, Fujitsu Microelectronics Limited.
-* The subsidiaries of AT&T includes : AT&T Mobility, AT & T BLS Intellectual Property, AT&T Bell Laboratories, AT&T Wireless Services Inc., BellSouth Intellectual Property Corporation.
-==Filing trends over the years==
-[[Image:ftf.jpg|thumb|1000px|centre|Filing trends over the years]]
-==Year by year trends of top 5 companies==
-[[Image:fttf.jpg|thumb|1000px|centre|Year by year trends of top 5 companies]]
-==Major players in the non-ETSI list for MIMO==
-[[Image:non playders.jpg|centre|1000px|]]
-==Major companies for low cost IP for MIMO ==
-[[Image:smalls.jpg|centre|1000px|]]
-'''Disclaimer 1:''' Here primarily, companies with an average annual revenue less than 400 million USD are considered. In addition to these, some big companies whose primary interest is not LTE and those which provide IP licensing are also considered.
+|-
+| style="background-color:#DCE6F1;padding:0.079cm;"| <center>'''7'''</center>
+| style="background-color:#DCE6F1;padding:0.079cm;"| [http://pubs.rsc.org/en/Content/ArticleLanding/2007/JM/b609204g Precision ink jet printing of polymer light emitting displays]
+| style="background-color:#DCE6F1;padding:0.079cm;"| J. F. Dijksman, P. C. Duineveld, M. J. J. Hack, A. Pierik, J. Rensen, J.-E. Rubingh, I. Schram andM. M. Vernhou
+| style="background-color:#DCE6F1;padding:0.079cm;"| 09/11/2006
+| style="background-color:#DCE6F1;padding:0.079cm;"| Philips Research Laboratories RSC
+| style="background-color:#DCE6F1;padding:0.079cm;"| Precision ink jet printing of organic polymer light emitting diodes relies strongly on the accuracy of the droplet generation process.Image capturing using one image at a time for image processing delivers sharper images and can be used for optically measuring droplet volumes.
-'''Disclaimer 2 :'''The above graph is based on raw data available with us. Some of the patents may not be relevant
+|-
-==Most cited documents in non-ETSI list for MIMO==
+| style="padding:0.079cm;"| <center>'''8'''</center>
+| style="padding:0.079cm;"| [http://apl.aip.org/resource/1/applab/v88/i7/p073517_s1?isAuthorized=no High-efficiency microcavity top-emitting organic light-emittingdiodes using silver anode]
+| style="padding:0.079cm;"| Huajun Peng, Jiaxin Sun, Xiuling Zhu, Xiaoming Yu, Man Wong, and Hoi-Sing Kwok
+| style="padding:0.079cm;"| 17/02/2006
+| style="padding:0.079cm;"| Hong Kong Universityof Science and Technology. AIP
+| style="padding:0.079cm;"| High efficient top-emitting OLEDs have been fabricated using highly reflective Ag as the anode. Surfacemodification of the Ag anode by CF4 plasma substantially enhances the hole injection efficiency. The color variation isalmost eliminated in the TOLED. The optimized microcav- ity TOLED has a current efficiency enhancement of 65% and a total outcoupling efficiency enhancement of 35%, as compared with a conventional OLED.
+|-
+| style="background-color:#DCE6F1;padding:0.079cm;"| <center>'''9'''</center>
+| style="background-color:#DCE6F1;padding:0.079cm;"| [http://www.sciencedirect.com/science?_ob=ArticleURL&_udi=B6THY-4F70JMT-5&_user=10&_coverDate=05%2F15%2F2005&_rdoc=1&_fmt=high&_orig=gateway&_origin=gateway&_sort=d&_docanchor=&view=c&_searchStrId=1660089209&_rerunOrigin=scholar.google&_acct=C000050221&_version=1&_urlVersion=0&_userid=10&md5=f4dc4db9a6e736e6994a9ffa868e34b8&searchtype=a Inverted top-emitting organic light-emitting diodes using transparent conductive NiO electrode ]
+| style="background-color:#DCE6F1;padding:0.079cm;"| Se-W. Park, Jeong-M. Choi, Eugene Kim and Seongil Im
+| style="background-color:#DCE6F1;padding:0.079cm;"| 09/01/2005
+| style="background-color:#DCE6F1;padding:0.079cm;"| Institute of Physics and Applied Physics, Applied Surface Science 244 (2005) 439–443
+| style="background-color:#DCE6F1;padding:0.079cm;"| TE-OLED device uses a thermally evaporated and semi-transparent NiO film as a top-electrode. Since the sheet resistance of our NiO was very high and its transmittance was only about 50%, the resulting luminance and injection current of our TE-OLED were much inferior to those of the BE-OLED device.
+|-
+| style="padding:0.079cm;"| <center>'''10'''</center>
+| style="padding:0.079cm;"| [http://apl.aip.org/resource/1/applab/v89/i23/p233513_s1?isAuthorized=no Self-assembled monolayer-modified Ag anode for top-emitting polymerlight-emitting diodes]
+| style="padding:0.079cm;"| Lai-Wan Chong, Yuh-Lang Lee,a͒ and Ten-Chin Wenb͒
+| style="padding:0.079cm;"| 07/12/2006
+| style="padding:0.079cm;"| Department of Chemical Engineering, National Cheng Kung University
+| style="padding:0.079cm;"| Self-assembled monolayer is a method to modify the Ag anodes for application in T-PLED. The Ag electrode can be utilized as an effective anode to improve the emitting characteristic of a T-PLED. The Ag anode enhances the hole injection, reduce the op-eration voltage, and significantly increase the current inten-sity and luminous efficiency of the device, without decreasing the reflectivity of the Ag anode.
+|}
+Click '''[[media:Non patent literature.xls|here]]''' to view the detailed analysis sheet for Top Emission OLED for non patent literature
+== Top Cited Patents==
 {|border="2" cellspacing="0" cellpadding="4" width="100%"
-|align = "center" bgcolor = "#538ED5"|<font color="#FFFFFF">'''S.No'''</font>
+| style="background-color:#4f81bd;padding:0.079cm;"| <center>'''S. No.'''</center>
-|align = "center" bgcolor = "#538ED5"|<font color="#FFFFFF">'''Patent/Publication No.'''</font>
+| style="background-color:#4f81bd;padding:0.079cm;"| <center>'''Patent/Publication No.'''</center>
-|align = "center" bgcolor = "#538ED5"|<font color="#FFFFFF">'''Title'''</font>
+| style="background-color:#4f81bd;padding:0.079cm;"| <center>'''Publication Date (mm/dd/yyyy)'''</center>
-|align = "center" bgcolor = "#538ED5"|<font color="#FFFFFF">'''Priority Date'''</font>
+| style="background-color:#4f81bd;padding:0.079cm;"| <center>'''Assignee/Applicant'''</center>
-|align = "center" bgcolor = "#538ED5"|<font color="#FFFFFF">'''Assignee/Applicant'''</font>
+| style="background-color:#4f81bd;padding:0.079cm;"| <center>'''Title'''</center>
-|align = "center" bgcolor = "#538ED5"|<font color="#FFFFFF">'''Count of Citing Patents'''</font>
+| style="background-color:#4f81bd;padding:0.079cm;"| <center>'''Citation Count'''</center>
 |-
-|align = "center" bgcolor = "#B8CCE4"|1
+| style="background-color:#DCE6F1;padding:0.079cm;"| <center>1</center>
-|align = "center" bgcolor = "#B8CCE4"|<font color="#0000FF"><u>[http://patft.uspto.gov/netacgi/nph-Parser?Sect1=PTO1&Sect2=HITOFF&d=PALL&p=1&u=%2Fnetahtml%2FPTO%2Fsrchnum.htm&r=1&f=G&l=50&s1=5541955.PN.&OS=PN/5541955&RS=PN/5541955 US5541955A]</u></font>
+| style="background-color:#DCE6F1;padding:0.079cm;"| US6096496A
-|bgcolor = "#B8CCE4"|Adaptive data rate modem
+| style="background-color:#DCE6F1;padding:0.079cm;"| <center>8/1/2000</center>
-|bgcolor = "#B8CCE4"| 1992-11-06 <nowiki>|</nowiki> 1995-04-28
+| style="background-color:#DCE6F1;padding:0.079cm;"| Frankel; Robert D
-|bgcolor = "#B8CCE4"|Pericle Communications Company
+| style="background-color:#DCE6F1;padding:0.079cm;"| Supports incorporating vertical cavity emitting lasers and tracking apparatus for use in combinatorial synthesis
-|align = "center" bgcolor = "#B8CCE4"|272
+| style="background-color:#DCE6F1;padding:0.079cm;"| <center>130</center>
 |-
-|align = "center"|2
+| style="padding:0.079cm;"| <center>2</center>
-|align = "center"|<font color="#0000FF"><u>[http://patft.uspto.gov/netacgi/nph-Parser?Sect1=PTO1&Sect2=HITOFF&d=PALL&p=1&u=%2Fnetahtml%2FPTO%2Fsrchnum.htm&r=1&f=G&l=50&s1=5999561.PN.&OS=PN/5999561&RS=PN/5999561 US5999561A]</u></font>
+| style="padding:0.079cm;"| US6069443A
-|Direct sequence spread spectrum method, computer-based product, apparatus and system tolerant to frequency
+| style="padding:0.079cm;"| <center>5/30/2000</center>
-|1997-05-20 <nowiki>|</nowiki> 1997-07-08 <nowiki>|</nowiki> 1997-09-15
+| style="padding:0.079cm;"| Fed Corporation
-|Sanconix  Inc
+| style="padding:0.079cm;"| Passive matrix OLED display
-|align = "center"|161
+| style="padding:0.079cm;"| <center>97</center>
 |-
-|align = "center" bgcolor = "#B8CCE4"|3
+| style="background-color:#DCE6F1;padding:0.079cm;"| <center>3</center>
-|align = "center" bgcolor = "#B8CCE4"|<font color="#0000FF"><u>[http://patft.uspto.gov/netacgi/nph-Parser?Sect1=PTO1&Sect2=HITOFF&d=PALL&p=1&u=%2Fnetahtml%2FPTO%2Fsrchnum.htm&r=1&f=G&l=50&s1=5752164.PN.&OS=PN/5752164&RS=PN/5752164 US5752164A]</u></font>
+| style="background-color:#DCE6F1;padding:0.079cm;"| US6366017B1
-|bgcolor = "#B8CCE4"|Autonomous remote measurement unit for a personal communications service system
+| style="background-color:#DCE6F1;padding:0.079cm;"| <center>4/2/2002</center>
-|bgcolor = "#B8CCE4"| 1992-04-27 <nowiki>|</nowiki> 1995-04-25
+| style="background-color:#DCE6F1;padding:0.079cm;"| Agilent Technologies
-|bgcolor = "#B8CCE4"|American PCS L
+| style="background-color:#DCE6F1;padding:0.079cm;"| Organic light emitting diodes with distributed bragg reflector
-|align = "center" bgcolor = "#B8CCE4"|146
+| style="background-color:#DCE6F1;padding:0.079cm;"| <center>80</center>
 |-
-|align = "center"|4
+| style="padding:0.079cm;"| <center>4</center>
-|align = "center"|<font color="#0000FF"><u>[http://patft.uspto.gov/netacgi/nph-Parser?Sect1=PTO1&Sect2=HITOFF&d=PALL&p=1&u=%2Fnetahtml%2FPTO%2Fsrchnum.htm&r=1&f=G&l=50&s1=4441180.PN.&OS=PN/4441180&RS=PN/4441180 US4441180A]</u></font>
+| style="padding:0.079cm;"| US20020197511A1
-|Service integrated communication transmission and interchange system
+| style="padding:0.079cm;"| <center>12/26/2002</center>
-|1979-06-01 <nowiki>|</nowiki> 1980-05-30
+| style="padding:0.079cm;"| United Of America As Respresented By The Secretary Of The Air Force
-|Licentia Patent Verwaltungs GmbH
+| style="padding:0.079cm;"| High efficiency multi-color electro-phosphorescent OLEDS
-|align = "center"|134
+| style="padding:0.079cm;"| <center>51</center>
 |-
-|align = "center" bgcolor = "#B8CCE4"|5
+| style="background-color:#DCE6F1;padding:0.079cm;"| <center>5</center>
-|align = "center" bgcolor = "#B8CCE4"|<font color="#0000FF"><u>[http://patft.uspto.gov/netacgi/nph-Parser?Sect1=PTO1&Sect2=HITOFF&d=PALL&p=1&u=%2Fnetahtml%2FPTO%2Fsrchnum.htm&r=1&f=G&l=50&s1=6072994.PN.&OS=PN/6072994&RS=PN/6072994 US6072994A]</u></font>
+| style="background-color:#DCE6F1;padding:0.079cm;"| US6265820B1
-|bgcolor = "#B8CCE4"|Digitally programmable multifunction radio system architecture
+| style="background-color:#DCE6F1;padding:0.079cm;"| <center>7/24/2001</center>
-|align = "right" bgcolor = "#B8CCE4"| 1995-8-31
+| style="background-color:#DCE6F1;padding:0.079cm;"| Emagin Corporation,De
-|bgcolor = "#B8CCE4"|Northrop Grumman Corporation
+| style="background-color:#DCE6F1;padding:0.079cm;"| Heat removal system for use in organic light emitting diode displays having high brightness
-|align = "center" bgcolor = "#B8CCE4"|133
+| style="background-color:#DCE6F1;padding:0.079cm;"| <center>50</center>
 |-
-|align = "center"|6
+| style="padding:0.079cm;"| <center>6</center>
-|align = "center"|<font color="#0000FF"><u>[http://patft.uspto.gov/netacgi/nph-Parser?Sect1=PTO1&Sect2=HITOFF&d=PALL&p=1&u=%2Fnetahtml%2FPTO%2Fsrchnum.htm&r=1&f=G&l=50&s1=6314147.PN.&OS=PN/6314147&RS=PN/6314147 US6314147B1]</u></font>
+| style="padding:0.079cm;"| US20020195968A1
-|Two-stage CCI/ISI reduction with space-time processing in TDMA cellular networks
+| style="padding:0.079cm;"| <center>12/26/2002</center>
-|1997-11-04 <nowiki>|</nowiki> 1998-11-04
+| style="padding:0.079cm;"| IBM
-|The Board of Trustees of the Leland Stanford Junior University
+| style="padding:0.079cm;"| Oled current drive pixel circuit
-|align = "center"|132
+| style="padding:0.079cm;"| <center>44</center>
 |-
-|align = "center" bgcolor = "#B8CCE4"|7
+| style="background-color:#DCE6F1;padding:0.079cm;"| <center>7</center>
-|align = "center" bgcolor = "#B8CCE4"|<font color="#0000FF"><u>[http://patft.uspto.gov/netacgi/nph-Parser?Sect1=PTO1&Sect2=HITOFF&d=PALL&p=1&u=%2Fnetahtml%2FPTO%2Fsrchnum.htm&r=1&f=G&l=50&s1=5859878.PN.&OS=PN/5859878&RS=PN/5859878 US5859878A]</u></font>
+| style="background-color:#DCE6F1;padding:0.079cm;"| US20020186209A1
-|bgcolor = "#B8CCE4"|Common receive module for a programmable digital radio
+| style="background-color:#DCE6F1;padding:0.079cm;"| <center>12/12/2002</center>
-|align = "right" bgcolor = "#B8CCE4"|1995-8-31
+| style="background-color:#DCE6F1;padding:0.079cm;"| Eastman Kodak Company
-|bgcolor = "#B8CCE4"|Northrop Grumman Corporation
+| style="background-color:#DCE6F1;padding:0.079cm;"| Touch screen for use with an OLED display
-|align = "center" bgcolor = "#B8CCE4"|131
+| style="background-color:#DCE6F1;padding:0.079cm;"| <center>42</center>
 |-
-|align = "center"|8
+| style="padding:0.079cm;"| <center>8</center>
-|align = "center"|<font color="#0000FF"><u>[http://patft.uspto.gov/netacgi/nph-Parser?Sect1=PTO1&Sect2=HITOFF&d=PALL&p=1&u=%2Fnetahtml%2FPTO%2Fsrchnum.htm&r=1&f=G&l=50&s1=5345471.PN.&OS=PN/5345471&RS=PN/5345471 US5345471A]</u></font>
+| style="padding:0.079cm;"| US20030127973A1
-|Ultra-wideband receiver
+| style="padding:0.079cm;"| <center>7/10/2003</center>
-|align = "right"|1993-12-4
+| style="padding:0.079cm;"| Universal Display Corporation
-|The Regents of the University of California
+| style="padding:0.079cm;"| OLEDs having increased external electroluminescence quantum efficiencies
-|align = "center"|130
+| style="padding:0.079cm;"| <center>41</center>
 |-
-|align = "center" bgcolor = "#B8CCE4"|9
+| style="background-color:#DCE6F1;padding:0.079cm;"| <center>9</center>
-|align = "center" bgcolor = "#B8CCE4"|<font color="#0000FF"><u>[http://patft.uspto.gov/netacgi/nph-Parser?Sect1=PTO1&Sect2=HITOFF&d=PALL&p=1&u=%2Fnetahtml%2FPTO%2Fsrchnum.htm&r=1&f=G&l=50&s1=5694134.PN.&OS=PN/5694134&RS=PN/5694134 US5694134A]</u></font>
+| style="background-color:#DCE6F1;padding:0.079cm;"| US6844673B1
-|bgcolor = "#B8CCE4"|Phased array antenna system including a coplanar waveguide feed arrangement
+| style="background-color:#DCE6F1;padding:0.079cm;"| <center>1/18/2005</center>
-|bgcolor = "#B8CCE4"| 1992-12-01 <nowiki>|</nowiki> 1993-10-21 <nowiki>|</nowiki> 1994-01-14
+| style="background-color:#DCE6F1;padding:0.079cm;"| Alien Technology Corporation
-|bgcolor = "#B8CCE4"|Superconducting Core Technologies, Inc.
+| style="background-color:#DCE6F1;padding:0.079cm;"| Split-fabrication for light emitting display structures
-|align = "center" bgcolor = "#B8CCE4"|128
+| style="background-color:#DCE6F1;padding:0.079cm;"| <center>38</center>
 |-
-|align = "center"|10
+| style="padding:0.079cm;"| <center>10</center>
-|align = "center"|<font color="#0000FF"><u>[http://patft.uspto.gov/netacgi/nph-Parser?Sect1=PTO1&Sect2=HITOFF&d=PALL&p=1&u=%2Fnetahtml%2FPTO%2Fsrchnum.htm&r=1&f=G&l=50&s1=5347286.PN.&OS=PN/5347286&RS=PN/5347286 US5347286A]</u></font>
+| style="padding:0.079cm;"| US20040174116A1
-|Automatic antenna pointing system based on global positioning system (GPS) attitude information
+| style="padding:0.079cm;"| <center>9/9/2004</center>
-|1992-02-13 <nowiki>|</nowiki> 1993-03-19
+| style="padding:0.079cm;"| Universal Display Corporation
-|Trimble Navigation Limited
+| style="padding:0.079cm;"| Transparent electrodes
-|align = "center"|115
+| style="padding:0.079cm;"| <center>36</center>
 |-
+| style="background-color:#DCE6F1;padding:0.079cm;"| <center>11</center>
+| style="background-color:#DCE6F1;padding:0.079cm;"| US20050194896A1
+| style="background-color:#DCE6F1;padding:0.079cm;"| <center>9/8/2005</center>
+| style="background-color:#DCE6F1;padding:0.079cm;"| Hitachi Displays Ltd.
+| style="background-color:#DCE6F1;padding:0.079cm;"| Light emitting element and display device and illumination device using the light emitting element
+| style="background-color:#DCE6F1;padding:0.079cm;"| <center>35</center>
+|-
+| style="padding:0.079cm;"| <center>12</center>
+| style="padding:0.079cm;"| US20020074935A1
+| style="padding:0.079cm;"| <center>6/20/2002</center>
+| style="padding:0.079cm;"| Universal Display Corporation
+| style="padding:0.079cm;"| Highly stable and efficient OLEDs with a phosphorescent-doped mixed layer architecture
+| style="padding:0.079cm;"| <center>35</center>
+|-
+| style="background-color:#DCE6F1;padding:0.079cm;"| <center>13</center>
+| style="background-color:#DCE6F1;padding:0.079cm;"| US20040217702A1
+| style="background-color:#DCE6F1;padding:0.079cm;"| <center>11/4/2004</center>
+| style="background-color:#DCE6F1;padding:0.079cm;"| Corning Incorporated
+| style="background-color:#DCE6F1;padding:0.079cm;"| Light extraction designs for organic light emitting diodes
+| style="background-color:#DCE6F1;padding:0.079cm;"| <center>33</center>
+|-
+| style="padding:0.079cm;"| <center>14</center>
+| style="padding:0.079cm;"| US20020030647A1
+| style="padding:0.079cm;"| <center>3/14/2002</center>
+| style="padding:0.079cm;"| Universal Display Corporation
+| style="padding:0.079cm;"| Uniform active matrix oled displays
+| style="padding:0.079cm;"| <center>32</center>
+|-
+| style="background-color:#DCE6F1;padding:0.079cm;"| <center>15</center>
+| style="background-color:#DCE6F1;padding:0.079cm;"| US20050248270A1
+| style="background-color:#DCE6F1;padding:0.079cm;"| <center>11/10/2005</center>
+| style="background-color:#DCE6F1;padding:0.079cm;"| Eastman Kodak Company
+| style="background-color:#DCE6F1;padding:0.079cm;"| Encapsulating OLED devices
+| style="background-color:#DCE6F1;padding:0.079cm;"| <center>31</center>
+|-
+| style="padding:0.079cm;"| <center>16</center>
+| style="padding:0.079cm;"| US20040113875A1
+| style="padding:0.079cm;"| <center>6/17/2004</center>
+| style="padding:0.079cm;"| Eastman Kodak Company
+| style="padding:0.079cm;"| Color oled display with improved power efficiency
+| style="padding:0.079cm;"| <center>29</center>
+|-
+| style="background-color:#DCE6F1;padding:0.079cm;"| <center>17</center>
+| style="background-color:#DCE6F1;padding:0.079cm;"| US20030230972A1
+| style="background-color:#DCE6F1;padding:0.079cm;"| <center>12/18/2003</center>
+| style="background-color:#DCE6F1;padding:0.079cm;"| Eastman Kodak Company
+| style="background-color:#DCE6F1;padding:0.079cm;"| Oled display having color filters for improving contrast
+| style="background-color:#DCE6F1;padding:0.079cm;"| <center>28</center>
+|-
+| style="padding:0.079cm;"| <center>18</center>
+| style="padding:0.079cm;"| US20050040756A1
+| style="padding:0.079cm;"| <center>2/24/2005</center>
+| style="padding:0.079cm;"| Eastman Kodak Company
+| style="padding:0.079cm;"| OLED device having microcavity gamut subpixels and a within gamut subpixel
+| style="padding:0.079cm;"| <center>27</center>
+|-
+| style="background-color:#DCE6F1;padding:0.079cm;"| <center>19</center>
+| style="background-color:#DCE6F1;padding:0.079cm;"| US6670772B1
+| style="background-color:#DCE6F1;padding:0.079cm;"| <center>12/30/2003</center>
+| style="background-color:#DCE6F1;padding:0.079cm;"| Eastman Kodak Company
+| style="background-color:#DCE6F1;padding:0.079cm;"| Organic light emitting diode display with surface plasmon outcoupling
+| style="background-color:#DCE6F1;padding:0.079cm;"| <center>26</center>
+|-
+| style="padding:0.079cm;"| <center>20</center>
+| style="padding:0.079cm;"| US20040061136A1
+| style="padding:0.079cm;"| <center>4/1/2004</center>
+| style="padding:0.079cm;"| Eastman Kodak Company
+| style="padding:0.079cm;"| Organic light-emitting device having enhanced light extraction efficiency
+| style="padding:0.079cm;"| <center>26</center>
 |}
-==Patent mapping by graphical analysis==
+== Top Cited Articles ==
 {|border="2" cellspacing="0" cellpadding="4" width="100%"
-|align = "center" bgcolor = "#538ED5"|<font color="#FFFFFF">'''Sno.'''</font>
+| style="background-color:#4F81BD;padding:0.079cm;"| <center>'''S. No.'''</center>
-|align = "center" bgcolor = "#538ED5"|<font color="#FFFFFF">'''Patent/Publication No.'''</font>
+| style="background-color:#4F81BD;padding:0.079cm;"| <center>'''Title'''</center>
-|align = "center" bgcolor = "#538ED5"|<font color="#FFFFFF">'''Title'''</font>
+| style="background-color:#4F81BD;padding:0.079cm;"| <center>'''Publication Date'''</center>
-|align = "center" bgcolor = "#538ED5"|<font color="#FFFFFF">'''Figure analyzed'''</font>
+| style="background-color:#4F81BD;padding:0.079cm;"| <center>'''Journal/Conference'''</center>
-|align = "center" bgcolor = "#538ED5"|<font color="#FFFFFF">'''Analyzed result'''</font>
+| colspan="2"  style="background-color:#4F81BD;padding:0.079cm;"| <center>'''Citations Count'''</center>
-|align = "center" bgcolor = "#538ED5"|<font color="#FFFFFF">'''Standard mapped into'''</font>
 |-
-|align = "center" bgcolor = "#B8CCE4"|1
+| style="background-color:#DCE6F1;padding:0.079cm;"| <center>1</center>
-|align = "center" bgcolor = "#B8CCE4"|<font color="#0000FF">[http://appft.uspto.gov/netacgi/nph-Parser?Sect1=PTO1&Sect2=HITOFF&d=PG01&p=1&u=%2Fnetahtml%2FPTO%2Fsrchnum.html&r=1&f=G&l=50&s1=%2220070217538%22.PGNR.&OS=DN/20070217538&RS=DN/20070217538 US20070217538A1 ]</font>
+| style="background-color:#DCE6F1;padding:0.079cm;"| [http://www.nature.com/nature/journal/v420/n6917/full/nature01217.html?free=2 Electroluminescence from single monolayers of nanocrystals in molecular organic devices]
-|bgcolor = "#B8CCE4"|Systems and methods for improving performance of multiple spatial communication channels
+| style="background-color:#DCE6F1;padding:0.079cm;"| <center>Oct 2002</center>
-|align = "center" bgcolor = "#B8CCE4"|<font color="#0000FF">[http://dolcera.com/wiki/images/2007.pdf Figure 4 ]</font>
+| style="background-color:#DCE6F1;padding:0.079cm;"| Nature, Internatinal journal of science.
-|align = "center" bgcolor = "#B8CCE4"|DL data rate: 220 M bps for 3x3 advanced MIMO-SVD
+| style="background-color:#DCE6F1;padding:0.079cm;"| <center>736</center>
-|align = "center" bgcolor = "#B8CCE4"|<font color="#0000FF">[http://www.3gpp.org/LTE LTE release 8, category 4 ]</font>
 |-
-|align = "center"|2
+| style="padding:0.079cm;"| <center>2</center>
-|align = "center"|<font color="#0000FF">[http://appft.uspto.gov/netacgi/nph-Parser?Sect1=PTO1&Sect2=HITOFF&d=PG01&p=1&u=%2Fnetahtml%2FPTO%2Fsrchnum.html&r=1&f=G&l=50&s1=%2220090232229%22.PGNR.&OS=DN/20090232229&RS=DN/20090232229 US20090232229A1 ]</font>
+| style="padding:0.079cm;"| [http://www.nature.com/nature/journal/v413/n6858/abs/413828a0.html Spin-dependent exciton formation in π-conjugated compounds]
-|Device, system and method of resource allocation in a wireless network
+| style="padding:0.079cm;"| <center>Aug 2001</center>
-|align = "center"|<font color="#0000FF">[http://dolcera.com/wiki/images/2009.pdf Figure 2A ]</font>
+| style="padding:0.079cm;"| Nature, Internatinal journal of science.
-|align = "center"|DL data rate: 210 M bps for a 2x2 MIMO at cell centre
+| style="padding:0.079cm;"| <center>220</center>
-|align = "center"|<font color="#0000FF">[http://www.3gpp.org/LTE LTE release 8, category 5]</font>
 |-
+| style="background-color:#DCE6F1;padding:0.079cm;"| <center>3</center>
+| style="background-color:#DCE6F1;padding:0.079cm;"| [http://pubs.acs.org/doi/abs/10.1021/cr050156n Highly Efficient Organic Devices Based on Electrically Doped Transport Layers]
+| style="background-color:#DCE6F1;padding:0.079cm;"| <center>Mar 2007</center>
+| style="background-color:#DCE6F1;padding:0.079cm;"| American Chemical Society Pub.
+| style="background-color:#DCE6F1;padding:0.079cm;"| <center>211</center>
+|-
+| style="padding:0.079cm;"| <center>4</center>
+| style="padding:0.079cm;"| [http://apl.aip.org/resource/1/applab/v82/i3/p466_s1?isAuthorized=no Phosphorescent top-emitting organic light-emitting devices with improved light outcoupling]
+| style="padding:0.079cm;"| <center>Nov 2002</center>
+| style="padding:0.079cm;"| Applied Physics Letters / Volume 82
+| style="padding:0.079cm;"| <center>111</center>
+|-
+| style="background-color:#DCE6F1;padding:0.079cm;"| <center>5</center>
+| style="background-color:#DCE6F1;padding:0.079cm;"| [http://ieeexplore.ieee.org/xpl/freeabs_all.jsp?arnumber=1288072 Thin-film permeation-barrier technology for flexible organic light-emitting devices]
+| style="background-color:#DCE6F1;padding:0.079cm;"| <center>Jan 2004</center>
+| style="background-color:#DCE6F1;padding:0.079cm;"| IEEE Photonics Society
+| style="background-color:#DCE6F1;padding:0.079cm;"| <center>104</center>
+|-
+| style="padding:0.079cm;"| <center>6</center>
+| style="padding:0.079cm;"| [http://ieeexplore.ieee.org/xpl/freeabs_all.jsp?arnumber=669473 Design of flat-panel displays based on organic light-emitting devices]
+| style="padding:0.079cm;"| <center>Feb 1998 </center>
+| style="padding:0.079cm;"| IEEE Photonics Society
+| style="padding:0.079cm;"| <center>100</center>
+|-
+| style="background-color:#DCE6F1;padding:0.079cm;"| <center>7</center>
+| style="background-color:#DCE6F1;padding:0.079cm;"| [http://ieeexplore.ieee.org/xpl/freeabs_all.jsp?arnumber=1224525 A new a-Si:H thin-film transistor pixel circuit for active-matrix organic light-emitting diodes]
+| style="background-color:#DCE6F1;padding:0.079cm;"| <center>Aug 2003</center>
+| style="background-color:#DCE6F1;padding:0.079cm;"| IEEE Electron Devices Society
+| style="background-color:#DCE6F1;padding:0.079cm;"| <center>86</center>
+|-
+| style="padding:0.079cm;"| <center>8</center>
+| style="padding:0.079cm;"| [http://www.sciencedirect.com/science?_ob=ArticleURL&_udi=B6W6J-49KS3CB-1&_user=10&_coverDate=09%2F30%2F2003&_rdoc=1&_fmt=high&_orig=gateway&_origin=gateway&_sort=d&_docanchor=&view=c&_searchStrId=1688490500&_rerunOrigin=scholar.google&_acct=C000050221&_version=1&_urlVersion=0&_userid=10&md5=ea20da18e92aafacab19ac69101f9a3c&searchtype=a The road to high efficiency organic light emitting devices ]
+| style="padding:0.079cm;"| <center>Sep 2003</center>
+| style="padding:0.079cm;"| ScienceDirect
+| style="padding:0.079cm;"| <center>87</center>
+|-
+| style="background-color:#DCE6F1;padding:0.079cm;"| <center>9</center>
+| style="background-color:#DCE6F1;padding:0.079cm;"| [http://ieeexplore.ieee.org/xpl/freeabs_all.jsp?arnumber=1327745 Amorphous silicon thin film transistor circuit integration for organic LED displays on glass and plastic]
+| style="background-color:#DCE6F1;padding:0.079cm;"| <center>Sep 2004</center>
+| style="background-color:#DCE6F1;padding:0.079cm;"| IEEE Photonics Society
+| style="background-color:#DCE6F1;padding:0.079cm;"| <center>73</center>
+|-
+| style="padding:0.079cm;"| <center>10</center>
+| style="padding:0.079cm;"| [http://apl.aip.org/resource/1/applab/v82/i16/p2715_s1?isAuthorized=no Transparent-cathode for top-emission organic light-emitting diodes ]
+| style="padding:0.079cm;"| <center>Feb 2003</center>
+| style="padding:0.079cm;"| Applied Physics Letters
+| style="padding:0.079cm;"| <center>72</center>
 |}
-==Ranking of Non ETSI patents==
+= Dolcera Dashboard =
+[[Image:dashboard_features.png|center|750px|]]
+'''Dashboard Link'''<br>
 {|border="2" cellspacing="0" cellpadding="4" width="100%"
-|align = "center" bgcolor = "#538ED5"|<font color="#FFFFFF">'''Sno.'''</font>
+|'''[http://client.dolcera.com/dashboard/dashboard.html?workfile_id=913 Top Emission OLED - Dashboard] '''
-|align = "center" bgcolor = "#538ED5"|<font color="#FFFFFF">'''Patent/Publication No.'''</font>
+|width="100"|[[Image:dashboard_thumb.png|center|100px|]]
-|align = "center" bgcolor = "#538ED5"|<font color="#FFFFFF">'''US Class (primary)'''</font>
-|align = "center" bgcolor = "#538ED5"|<font color="#FFFFFF">'''Title'''</font>
-|align = "center" bgcolor = "#538ED5"|<font color="#FFFFFF">'''Publication Year'''</font>
-|align = "center" bgcolor = "#538ED5"|<font color="#FFFFFF">'''Priority Year(s)'''</font>
-|align = "center" bgcolor = "#538ED5"|<font color="#FFFFFF">'''Legal status'''</font>
-|align = "center" bgcolor = "#538ED5"|<font color="#FFFFFF">'''Rank'''</font>
 |-
-|align = "center" bgcolor = "#B8CCE4"|1
+|}
-|align = "center" bgcolor = "#B8CCE4"|<font color="#0000FF">[http://patft.uspto.gov/netacgi/nph-Parser?Sect1=PTO1&Sect2=HITOFF&d=PALL&p=1&u=%2Fnetahtml%2FPTO%2Fsrchnum.htm&r=1&f=G&l=50&s1=7548730.PN.&OS=PN/7548730&RS=PN/7548730 US7548730B2 ]</font>
+*Flash Player is essential to view the Dolcera dashboard
-|align = "center" bgcolor = "#B8CCE4"|375267
-|bgcolor = "#B8CCE4"|Systems and methods for improving performance of multiple spatial communication channels
+=Products=
-|align = "center" bgcolor = "#B8CCE4"|2007
-|align = "center" bgcolor = "#B8CCE4"|2006
+{|border="2" cellspacing="0" cellpadding="4" width="100%"
-|align = "center" bgcolor = "#B8CCE4"|Patented Case
+| style="background-color:#4F81BD;padding:0.079cm;"| <center>'''S. No.'''</center>
-|align = "center" bgcolor = "#B8CCE4"|'''1'''
+| style="background-color:#4F81BD;padding:0.079cm;"| <center>'''Company'''</center>
+| style="background-color:#4F81BD;padding:0.079cm;"| <center>'''Product'''</center>
+| colspan="2"  style="background-color:#4F81BD;padding:0.079cm;"| <center>'''Specifications'''</center>
 |-
-|align = "center"|2
+| style="background-color:#DCE6F1;padding:0.079cm;" rowspan="14"| <center>1</center>
-|align = "center"|<font color="#0000FF">[http://appft.uspto.gov/netacgi/nph-Parser?Sect1=PTO1&Sect2=HITOFF&d=PG01&p=1&u=%2Fnetahtml%2FPTO%2Fsrchnum.html&r=1&f=G&l=50&s1=%2220090232229%22.PGNR.&OS=DN/20090232229&RS=DN/20090232229 US20090232229A1 ]</font>
+| style="background-color:#DCE6F1;padding:0.079cm;" rowspan="14"| <center>[http://pro.sony.com/bbsc/ssr/product-BVME250/ Sony] </center>
-|align = "center"|375260
+| style="background-color:#DCE6F1;padding:0.079cm;" rowspan="14"| [[Image:oled 2.png]] <center>[http://pro.sony.com/bbsc/ssr/product-BVME250/ BVME250]
-|Device, system and method of resource allocation in a wireless network
+| style="background-color:#DCE6F1;padding:0.079cm;"| '''Digital Inputs Specifications'''
-|align = "center"|2009
+| style="background-color:#DCE6F1;padding:0.079cm;"| '''Detail:'''
-|align = "center"|2008
-|align = "center"|Docketed New Case - Ready for Examination
-|align = "center"|'''2'''
 |-
-|align = "center" bgcolor = "#B8CCE4"|3
+| style="background-color:#DCE6F1;padding:0.079cm;"| HDMI
-|align = "center" bgcolor = "#B8CCE4"|<font color="#0000FF">[http://appft.uspto.gov/netacgi/nph-Parser?Sect1=PTO1&Sect2=HITOFF&d=PG01&p=1&u=%2Fnetahtml%2FPTO%2Fsrchnum.html&r=1&f=G&l=50&s1=%2220080187066%22.PGNR.&OS=DN/20080187066&RS=DN/20080187066 US20080187066A1 ]</font>
+| style="background-color:#DCE6F1;padding:0.079cm;"| HDMI (x1) (HDCP correspondence, Deep Color correspondence)
-|align = "center" bgcolor = "#B8CCE4"|375267
-|bgcolor = "#B8CCE4"|Detection method and apparatus for a multi-stream MIMO
-|align = "center" bgcolor = "#B8CCE4"|2008
-|align = "center" bgcolor = "#B8CCE4"|2007
-|align = "center" bgcolor = "#B8CCE4"|Non Final Action Mailed
-|align = "center" bgcolor = "#B8CCE4"|'''2'''
 |-
-|align = "center"|4
+| style="background-color:#DCE6F1;padding:0.079cm;"| SDI (SMPTE 259M)
-|align = "center"|<font color="#0000FF">[http://patft.uspto.gov/netacgi/nph-Parser?Sect1=PTO1&Sect2=HITOFF&d=PALL&p=1&u=%2Fnetahtml%2FPTO%2Fsrchnum.htm&r=1&f=G&l=50&s1=7796546.PN.&OS=PN/7796546&RS=PN/7796546 US7796546B2]</font>
+| style="background-color:#DCE6F1;padding:0.079cm;"| BNC (x2)
-|align = "center"|370315
-|Apparatus and method for supporting multiple links in a network using frequency bands
-|align = "center"|2007
-|align = "center"|2006
-|align = "center"|Patented Case
-|align = "center"|'''4'''
 |-
+| style="background-color:#DCE6F1;padding:0.079cm;"| '''Display Specifications'''
+| style="background-color:#DCE6F1;padding:0.079cm;"| '''Detail:'''
+|-
+| style="background-color:#DCE6F1;padding:0.079cm;"| Image Aspect Ratio
+| style="background-color:#DCE6F1;padding:0.079cm;"| 16:09
+|-
+| style="background-color:#DCE6F1;padding:0.079cm;"| Resolution
+| style="background-color:#DCE6F1;padding:0.079cm;"| 1920 x 1080 pixels (Full HD)
+|-
+| style="background-color:#DCE6F1;padding:0.079cm;"| Screen Size
+| style="background-color:#DCE6F1;padding:0.079cm;"| 24 5/8 inches (623.4 mm)
+|-
+| style="background-color:#DCE6F1;padding:0.079cm;"| Viewing Angle
+| style="background-color:#DCE6F1;padding:0.079cm;"| 89°/89°/89°/89°
+|-
+| style="background-color:#DCE6F1;padding:0.079cm;"| '''General Specifications Specifications'''
+| style="background-color:#DCE6F1;padding:0.079cm;"| '''Detail:'''
+|-
+| style="background-color:#DCE6F1;padding:0.079cm;"| Dimensions (W x H x D)
+| style="background-color:#DCE6F1;padding:0.079cm;"| 22 3/4 x 16 3/4 x 5 7/8 inches
+|-
+| style="background-color:#DCE6F1;padding:0.079cm;"| Weight
+| style="background-color:#DCE6F1;padding:0.079cm;"| 28 lb 11 oz
+|-
+| style="background-color:#DCE6F1;padding:0.079cm;"| '''Power Requirements Specifications'''
+| style="background-color:#DCE6F1;padding:0.079cm;"| '''Detail:'''
+|-
+| style="background-color:#DCE6F1;padding:0.079cm;"| Power Consumption
+| style="background-color:#DCE6F1;padding:0.079cm;"| Approx. 145 W
+|-
+| style="background-color:#DCE6F1;padding:0.079cm;"| Power Requirements
+| style="background-color:#DCE6F1;padding:0.079cm;"| AC 100 V to 240 V, 1.6 A to 0.8 A, 50/60 Hz
+|-
+| style="padding:0.079cm;" rowspan="14"| 2</center>
+| style="padding:0.079cm;" rowspan="14"| <center>[http://www.sony.co.uk/biz/product/bvm/bvm-e170/overview Sony]</center>
+| style="padding:0.079cm;"  rowspan="14"|[[Image:oled 3.png]]<br> <center>[http://www.sony.co.uk/biz/product/bvm/bvm-e170/overview BVM-E170]</center>
+| style="padding:0.079cm;"| '''Digital Inputs Specifications'''
+| style="padding:0.079cm;"| '''Detail:'''
+|-
+| style="padding:0.079cm;"| HDMI
+| style="padding:0.079cm;"| HDMI (x1) (HDCP correspondence, deep colour correspondence)
+|-
+| style="padding:0.079cm;"| SDI
+| style="padding:0.079cm;"| BNC (x2)
+|-
+| style="padding:0.079cm;"| '''Display Specifications'''
+| style="padding:0.079cm;"| '''Detail:'''
+|-
+| style="padding:0.079cm;"| Image Aspect Ratio
+| style="padding:0.079cm;"| 16:09
+|-
+| style="padding:0.079cm;"| Resolution
+| style="padding:0.079cm;"| 1920 x 1080 pixels (Full HD)
+|-
+| style="padding:0.079cm;"| Screen Size
+| style="padding:0.079cm;"| 365.8 x 205.7 mm (14 1/2 x 8 1/8 inches)
+|-
+| style="padding:0.079cm;"| Viewing Angle
+| style="padding:0.079cm;"| 89°/89°/89°/89° (typical) (up/down/left/right contrast >10:1)
+|-
+| style="padding:0.079cm;"| '''General Specifications Specifications'''
+| style="padding:0.079cm;"| '''Detail:'''
+|-
+| style="padding:0.079cm;"| Dimensions (W x H x D)
+| style="padding:0.079cm;"| 436.0 x 282.4 (266.4)* x 214.7 mm (17 1/4 x 11 1/4 (10 1/2)* x 8 1/2 inches) * Height without legs
+|-
+| style="padding:0.079cm;"| Weight
+| style="padding:0.079cm;"| 8.5 kg (18 lb 11 oz)
+|-
+| style="padding:0.079cm;"| '''Power Requirements Specifications'''
+| style="padding:0.079cm;"| '''Detail:'''
+|-
+| style="padding:0.079cm;"| Power Consumption
+| style="padding:0.079cm;"| Approx. 65 W normally with input from a standard HDMI input. Approx. 115 W at maximum load, with four option slots in use and maximum luminance compensation for any deterioration due to aging.
+|-
+| style="padding:0.079cm;"| Power Requirements
+| style="padding:0.079cm;"| AC 100 V to 240 V, 1.4 A to 0.7 A, 50/60 Hz DC 24 V to 28 V, 4.7 A to 4.0 A
+|-
+| style="background-color:#DCE6F1;padding:0.079cm;" rowspan="18"| <center>3</center>
+| style="background-color:#DCE6F1;padding:0.079cm;" rowspan="18"| <center>[http://pro.sony.com/bbsc/ssr/product-PVM740/ Sony]</center>
+| style="background-color:#DCE6F1;padding:0.079cm;" rowspan="18"| [[Image:oled 1.png]] <center>[http://pro.sony.com/bbsc/ssr/product-PVM740/ PVM-740 ]</center>
+| style="background-color:#DCE6F1;padding:0.079cm;"| '''Digital Inputs Specifications'''
+| style="background-color:#DCE6F1;padding:0.079cm;"| '''Detail:'''
+|-
+| style="background-color:#DCE6F1;padding:0.079cm;"| HDMI
+| style="background-color:#DCE6F1;padding:0.079cm;"| Yes
+|-
+| style="background-color:#DCE6F1;padding:0.079cm;"| HDSDI (SMPTE 292M)
+| colspan="2"  style="background-color:#DCE6F1;padding:0.079cm;"| 3G/SDI/HDSDI
+|-
+| style="background-color:#DCE6F1;padding:0.079cm;"| SDI (SMPTE 259M)
+| style="background-color:#DCE6F1;padding:0.079cm;"| Included
+|-
+| style="background-color:#DCE6F1;padding:0.079cm;"| '''Display Specifications'''
+| style="background-color:#DCE6F1;padding:0.079cm;"| '''Detail:'''
+|-
+| style="background-color:#DCE6F1;padding:0.079cm;"| Back Light Technology
+| style="background-color:#DCE6F1;padding:0.079cm;"| OLED
+|-
+| style="background-color:#DCE6F1;padding:0.079cm;"| Native Aspect Ratio
+| style="background-color:#DCE6F1;padding:0.079cm;"| 16:09
+|-
+| style="background-color:#DCE6F1;padding:0.079cm;"| Resolution
+| colspan="2"  style="background-color:#DCE6F1;padding:0.079cm;"| 960 x 540
+|-
+| style="background-color:#DCE6F1;padding:0.079cm;"| Screen Size
+| colspan="2"  style="background-color:#DCE6F1;padding:0.079cm;"| Approx 7.4 inches
+|-
+| style="background-color:#DCE6F1;padding:0.079cm;"| Viewing Angle
+| colspan="7"  style="background-color:#DCE6F1;padding:0.079cm;"| 85°/85°/85°/85° (typical) (up/down/left/right contrast>10:1)
+|-
+| style="background-color:#DCE6F1;padding:0.079cm;"| '''General Specifications Specifications'''
+| style="background-color:#DCE6F1;padding:0.079cm;"| '''Detail:'''
+|-
+| style="background-color:#DCE6F1;padding:0.079cm;"| Dimensions (W x H x D)
+| colspan="7"  style="background-color:#DCE6F1;padding:0.079cm;"| 8 7/8 x 7 1/4 x 6 3/8 inches Approx. 222.4 x 183.5 x 161.8 mm
+|-
+| style="background-color:#DCE6F1;padding:0.079cm;"| On-Screen Display
+| style="background-color:#DCE6F1;padding:0.079cm;"| Yes
+|-
+| style="background-color:#DCE6F1;padding:0.079cm;"| Rack Mount
+| style="background-color:#DCE6F1;padding:0.079cm;"| MB531
+|-
+| style="background-color:#DCE6F1;padding:0.079cm;"| Weight
+| colspan="4"  style="background-color:#DCE6F1;padding:0.079cm;"| Approx. 5 lb 12 oz Approx. 2.6 kg
+|-
+| style="background-color:#DCE6F1;padding:0.079cm;"| '''Power Requirements Specifications'''
+| style="background-color:#DCE6F1;padding:0.079cm;"| '''Detail:'''
+|-
+| style="background-color:#DCE6F1;padding:0.079cm;"| Power Consumption
+| colspan="2"  style="background-color:#DCE6F1;padding:0.079cm;"| Max. approx. 27W
+|-
+| style="background-color:#DCE6F1;padding:0.079cm;"| Power Requirements
+| colspan="9"  style="background-color:#DCE6F1;padding:0.079cm;"| AC 100 to 240 V 50/60 Hz 0.5A to 0.3A DC 12 V 1.9 A Rechargeable Battery Pack
 |}
-'''Disclaimer: Patent ranking has been done according to the following logic:'''
+=Market Research=
-*'''Rank-1:'''  Granted +  LTE related (claims)
+==Major Players==
-*'''Rank-2''': Published + LTE related (claims)
+{|border="2" cellspacing="0" cellpadding="4" width="100%"
-*'''Rank-3''':  LTE related (Full spec )
+| style="background-color:#4F81BD;padding:0.079cm;"| <center>'''Major types of player '''</center>
-*'''Rank-4''': May be relevant and requires further analysis
+| style="background-color:#4F81BD;padding:0.079cm;"| <center>'''USA''' </center>
-*'''Rank-5''': Abandoned or Expired
+| style="background-color:#4F81BD;padding:0.079cm;"| <center>'''EU''' </center>
+| style="background-color:#4F81BD;padding:0.079cm;"| <center>'''Japan''' </center>
+| style="background-color:#4F81BD;padding:0.079cm;"| <center>'''Korea''' </center>
+| style="background-color:#4F81BD;padding:0.079cm;"| <center>'''Taiwan''' </center>
+| style="background-color:#4F81BD;padding:0.079cm;"| <center>'''China''' </center>
+|-
+| style="background-color:#DCE6F1;padding:0.079cm;"| <center>'''Original IPR for devices and for manufacture process + material supply / verification '''</center>
+| style="background-color:#DCE6F1;padding:0.079cm;"| UDC; Kodak; Add-Vision; Magin; Plextronics; Organic Lighting Technologies; GE;3M Innovation
+| style="background-color:#DCE6F1;padding:0.079cm;"| CDT (Sumitomo Chemical) (UK); Novaled (G); Fraunhofer IPMS (G); OLED-T (UK); OTB (ND); MicroEmissive Displays (UK)
+| style="background-color:#DCE6F1;padding:0.079cm;"| Seiko-Epson; Matsushita; Sony; Sumitomo Chemical; Sharp; TM Display; Konica –Minolta; Sanyo; Toppoly; Lumiotec; Canon; Toshiba
+| style="background-color:#DCE6F1;padding:0.079cm;"| Samsung; LG Phillips LCD; Neo View; Doosan DND
+| style="background-color:#DCE6F1;padding:0.079cm;"| AU Optoelectronics (AUO); Univision; Toppoly; Tetrahedron; Chi Mei Optoelectronics
+| style="background-color:#DCE6F1;padding:0.079cm;"|
+|-
+| style="padding:0.079cm;"| <center>'''Bulk materials and glass suppliers '''</center>
+| style="padding:0.079cm;"| PPG; 3M; Dow Corning
+| style="padding:0.079cm;"| Merck Materials (G); BASF (G); CDT (UK); Degussa/ Evonik (G); HC Starck (G); Sensient Imaging Technologies (G); Goodfellow Metals (UK); Novaled (G)
+| style="padding:0.079cm;"| Sumitomo Chemical; Mitsubishi Chemical
+| style="padding:0.079cm;"|
+| style="padding:0.079cm;"|
+| style="padding:0.079cm;"| Syndychem (Shenyang Syndy Chemistry Institute)
+|-
+| style="background-color:#DCE6F1;padding:0.079cm;"| <center>'''Components – driver ccts., packaging etc '''</center>
+| style="background-color:#DCE6F1;padding:0.079cm;"| Corning; Rockwell Collins
+| style="background-color:#DCE6F1;padding:0.079cm;"| ST Microelectronics (It, Fr); Infineon (G)
+| style="background-color:#DCE6F1;padding:0.079cm;"| Maekawa; Matsushita; Toppoly
+| style="background-color:#DCE6F1;padding:0.079cm;"| Dae Joo Electrncs
+| style="background-color:#DCE6F1;padding:0.079cm;"| AUO; Richtek Technologies; Lightsonic; Univision; Wintek
+| style="background-color:#DCE6F1;padding:0.079cm;"| Innocom Technologies Shenzen; RIT Display
+|-
+| style="padding:0.079cm;"| <center>'''OEM OLED FPD screen manufacturer & resellers '''</center>
+| style="padding:0.079cm;"| eMagin; US Micro Products
+| style="padding:0.079cm;"| Densitron Technologies (UK); MicroEmissive Displays (MED) (UK); Pacer International Distributors (UK reseller)
+| style="padding:0.079cm;"| Seiko-Epson; Sharp; Sumitomo Chemical; Lumiotec; TMDisplay; Sanyo
+| style="padding:0.079cm;"| Samsung SDI; Orion OLED; NeoView KOLON; Hyundai LCD
+| style="padding:0.079cm;"| AUO; Chi Mei EL (CMEL); Univision Technology; Evervision Electronics; RiTDisplay; TPO Display
+| style="padding:0.079cm;"| Visionix; Smartdisplays; Universal Display Technologoes (Jilin); Varitronix (HK); Blaze Display Technologies
+|-
+| style="background-color:#DCE6F1;padding:0.079cm;"| <center>'''Branded application device or/and FPD screen manufacturer with retail device sales '''</center>
+| style="background-color:#DCE6F1;padding:0.079cm;"| OSD
+| style="background-color:#DCE6F1;padding:0.079cm;"| Nokia; Sony-Ericsson
+| style="background-color:#DCE6F1;padding:0.079cm;"| Sony; Matsushita; Hitachi; Toshiba; Imase
+| style="background-color:#DCE6F1;padding:0.079cm;"| Samsung; LG Philips
+| style="background-color:#DCE6F1;padding:0.079cm;"|
+| style="background-color:#DCE6F1;padding:0.079cm;"|
+|-
+| style="padding:0.079cm;"| <center>'''OLED lighting branded suppliers and R&D '''</center>
+| style="padding:0.079cm;"| GE
+| style="padding:0.079cm;"| Thorn EMI (UK); OSRAM (G); Siemens (G)
+| style="padding:0.079cm;"| Sumitomo Chemica
+| style="padding:0.079cm;"|
+| style="padding:0.079cm;"|
+| style="padding:0.079cm;"|
+|}
+source: [[Media:market.pdf|Major players]]
+'''SWOT analysis'''
+{|border="2" cellspacing="0" cellpadding="4" width="100%"
+| style="background-color:#4F81BD;padding:0.079cm;"| <center>'''Strengths '''</center>
+| style="background-color:#4F81BD;padding:0.079cm;"| <center>'''Weaknesses '''</center>
+|-
+| style="background-color:#DCE6F1;padding:0.079cm;"| • Capability for innovation<br>• Production of base materials for OLED manufacture <br>• Process equipment manufacture is easy.
+| style="background-color:#DCE6F1;padding:0.079cm;"| • Lack of industrial productive capacity or eco-system to support low-cost volume production<br> • Capability to bring innovations to market – i.e. probability of export market success<br> • Lack of branded consumer goods suppliers apart from mobile handsets – e.g. Nokia
+|-
+| style="background-color:#4F81BD;padding:0.079cm;"| <center>'''Opportunities '''</center>
+| style="background-color:#4F81BD;padding:0.079cm;"| <center>'''Threats '''</center>
+|-
+| style="background-color:#DCE6F1;padding:0.079cm;"| • Possible renaissance in manufacturing at low-cost<br>• Use of IPR – with mitigations through agreements <br>• Expansion in base materials supply and process equipment manufacture for low temperatures
+| style="background-color:#DCE6F1;padding:0.079cm;"| • Older technologies – TFT-LCDs which improve technically – become cheaper, flexible, lower power demands and better colour/contrast, scale up larger, etc, make existing (LCD) players far stronger <br>• Strong competitive position and behaviour of current major players globally and market make market entry difficult or increasingly impossible
+|}
+==Market Forecast==
+'''OLED Lighting Market Forecast'''
+*OLED lighting will pick up in 2011, and reach $6.3B by 2018.
+*The OLED lighting market will reach $1.5B by 2015, and $6.3B by 2018.
+*Large investments have been made in OLED lighting in the EU, US, Japan and Korea.
+*There are about 20 OLED lighting organizations worldwide. Europe is currently the leading participant in OLED lighting in terms of projects numbers, government funding, and participating companies.
+*Over 100 companies and universities are currently working on OLED lighting.
+[[Image:markets.png|thumb|center|700 px|[[Media:market.pdf|OLED Lighting Market Forecast]]]]
+'''OLED TV Market Forecast'''
+*OLED TV sets will account for around half of all revenue for OLED panels in 2012, growing rapidly from just $150 million in 2011 to $1.5 billion in 2013.
+*iSuppli’s similarly forecasts the global OLED TV market will reach 2.8 million units by 2013, managing a compound annual growth rate (CAGR) of 212.3% from just 3,000 units in 2007.
+*In terms of global revenue, OLED TV will hit $1.4 billion by 2013, increasing at a CAGR of 206.8% from $2 million in 2007.
+[[Image:marketes.png|thumb|center|700 px|[[Media:markets1.pdf|OLED TV Market Forecast]]]]
+'''OLED Dispaly Market Forecast'''
+*OLED display market will grow to $5.5 billion by 2015, from $0.6 billion in 2008, with a CAGR of 37%. Currently, this growth is being driven by the adoption of active matrix OLED (AMOLED) displays for the primary display in mobile phones and portable media players.
+[[Image:marketees.png|thumb|center|700 px|[[Media:market1s.pdf|OLED Display Market Forecast]]]]
+==Recent Licensing Activities in OLED Segment==
+{|border="2" cellspacing="0" cellpadding="4" width="100%" align="center"
+|align = "center" bgcolor = "#4F81BD"|<font color="#FFFFFF">'''Licensor'''</font>
+|align = "center" bgcolor = "#4F81BD"|<font color="#FFFFFF">'''Licensee'''</font>
+|align = "center" bgcolor = "#4F81BD"|<font color="#FFFFFF">'''Date'''</font>
+|align = "center" bgcolor = "#4F81BD"|<font color="#FFFFFF">'''Details'''</font>
+|-
+|align = "center" bgcolor = "#DCE6F1"|<font color="#0000FF"><u>[http://www.globaloledtech.com/press-releases.html Global OLED Technology LLC]</u></font>
+|align = "center" bgcolor = "#DCE6F1"|OLEDWorks
+|align = "center" bgcolor = "#DCE6F1"|6th Dec 2011
+|align = "center" bgcolor = "#DCE6F1"|Under the terms of the royalty-bearing license, OLEDWorks is granted the right to use certain GOT patents in connection with OLEDWorks<nowiki>’</nowiki> commercialization of specified OLED lighting-related products.
+|-
+|align = "center"|<font color="#0000FF"><u>[http://www.ledsmagazine.com/news/8/2/7 Universal Display]</u></font>
+|align = "center"|Moser Baer
+|align = "center"|8th Feb 2011
+|align = "center"|Moser Baer agreed to license Universal<nowiki>’</nowiki>s OLED technology and purchase UniversalPHOLED (phosphorescent OLED) materials for white OLED panel manufacturing. The companies have agreed to work together for five years in the development of Moser Baer<nowiki>’</nowiki>s US-based OLED panel manufacturing project.
+|-
+|align = "center" bgcolor = "#DCE6F1"|<font color="#0000FF"><u>[http://www.reuters.com/article/2011/09/29/idUS217574+29-Sep-2011+BW20110929 Universal Display]</u></font>
+|align = "center" bgcolor = "#DCE6F1"|Pioneer Corp
+|align = "center" bgcolor = "#DCE6F1"|29th Sep 2011
+|align = "center" bgcolor = "#DCE6F1"|Pioneer is supposed to use Universal Display<nowiki>’</nowiki>s highly efficient, high-performance UniversalPHOLED® technology and materials for the manufacture and sale of OLED lighting products
+|-
+|align = "center"|<font color="#0000FF"><u>[http://www.bloomberg.com/news/2011-11-02/dupont-may-have-licensed-technology-to-samsung-consultant-says.html DuPont]</u></font>
+|align = "center"|Samsung
+|align = "center"|3rd Nov 2011
+|align = "center"|Samsung needed new technology for its larger models for televisions and hoped to benefit from DuPont<nowiki>’</nowiki>s recent innovations.
+|-
+|}<br clear="all">
+==Landscape Analysis Of Top-Emmission OLED==
+===Competitor Landscape===
+====Top Assignee====
+[[Image:Assigneenew.png|thumb|center| 1000 px|Top Assignee]]
+====Filing trends over the publication years====
+[[Image:publication12.png|thumb|center| 1000 px|IP activity based on publication years]]
+====Filing trends over the priority years====
+[[Image:priority1.png|thumb|center| 1000 px|IP activity based on priority years]]
+====Geographical Distribution based on family members====
+*The geographical distribution is based on 10 sample patent numbers along with all their family members.
+[[Image:geographical 1.png|thumb|center| 1000 px|Geographical Distribution based on Family members of OLED]]
-==Interactive Taxonomy==
-<mm>[[mmap977(1.1).mm|title LTE]]</mm>
-Note:This interactive taxonomy consists of 131 sample documents.
-==Dolcera Dashboard==
-[[Image:dbim.png|centre|800px]]
-===Dashboard Link===
-''The Dashboard is Dolcera's visualization platform to present the organized patent landscape''
-*Best viewed in Internet explorer 6 and higher versions
-*To view dashboard you would require a flash player. Kindly install a flash player if its not installed in your system
+===Key Inventor Mapping===
 {|border="2" cellspacing="0" cellpadding="4" width="100%"
-|'''[https://www.dolcera.com/auth/dashboard/dashboard.php?workfile_id=977 LTE - Dashboard] '''
+| style="background-color:#99ccff;padding:0.079cm;"| <center>'''S.No'''</center>
-|width="100"|[[Image:dashboard_thumb.png|center|100px|]]
+| style="background-color:#99ccff;padding:0.079cm;"| '''Inventor'''
+| style="background-color:#99ccff;padding:0.079cm;"| '''2000'''
+| style="background-color:#99ccff;padding:0.079cm;"| '''2001'''
+| style="background-color:#99ccff;padding:0.079cm;"| '''2002'''
+| style="background-color:#99ccff;padding:0.079cm;"| '''2003'''
+| style="background-color:#99ccff;padding:0.079cm;"| '''2004'''
+| style="background-color:#99ccff;padding:0.079cm;"| '''2005'''
+| style="background-color:#99ccff;padding:0.079cm;"| '''2006'''
+| style="background-color:#99ccff;padding:0.079cm;"| '''2007'''
+| style="background-color:#99ccff;padding:0.079cm;"| '''2008'''
+| style="background-color:#99ccff;padding:0.079cm;"| '''2009'''
+| style="background-color:#99ccff;padding:0.079cm;"| '''2010'''
+| colspan="2"  style="background-color:#99ccff;padding:0.079cm;"| '''Total Result'''
+|-
+| style="background-color:#99ccff;padding:0.079cm;"| <center>'''1'''</center>
+| style="padding:0.079cm;"| Cok, Ronald
+| style="padding:0.079cm;"| <div align="right"></div>
+| style="padding:0.079cm;"|
+| style="padding:0.079cm;"| <div align="right">1</div>
+| style="padding:0.079cm;"| <div align="right">3</div>
+| style="padding:0.079cm;"| <div align="right">22</div>
+| style="padding:0.079cm;"| <div align="right">18</div>
+| style="padding:0.079cm;"| <div align="right">17</div>
+| style="padding:0.079cm;"| <div align="right">14</div>
+| style="padding:0.079cm;"| <div align="right">15</div>
+| style="padding:0.079cm;"| <div align="right">4</div>
+| style="padding:0.079cm;"| <div align="right">2</div>
+| style="background-color:#99ccff;padding:0.079cm;"| <div align="right">'''96'''</div>
+|-
+| style="background-color:#99ccff;padding:0.079cm;"| <center>'''2'''</center>
+| style="padding:0.079cm;"| Park, Jin Woo
+| style="padding:0.079cm;"| <div align="right"></div>
+| style="padding:0.079cm;"|
+| style="padding:0.079cm;"|
+| style="padding:0.079cm;"|
+| style="padding:0.079cm;"|
+| style="padding:0.079cm;"|
+| style="padding:0.079cm;"|
+| style="padding:0.079cm;"| <div align="right">18</div>
+| style="padding:0.079cm;"| <div align="right">2</div>
+| style="padding:0.079cm;"|
+| style="padding:0.079cm;"|
+| style="background-color:#99ccff;padding:0.079cm;"| <div align="right">'''20'''</div>
+|-
+| style="background-color:#99ccff;padding:0.079cm;"| <center>'''3'''</center>
+| style="padding:0.079cm;"| Choi, Beohm Rock
+| style="padding:0.079cm;"| <div align="right"></div>
+| style="padding:0.079cm;"|
+| style="padding:0.079cm;"|
+| style="padding:0.079cm;"|
+| style="padding:0.079cm;"|
+| style="padding:0.079cm;"| <div align="right">1</div>
+| style="padding:0.079cm;"| <div align="right">6</div>
+| style="padding:0.079cm;"| <div align="right">7</div>
+| style="padding:0.079cm;"| <div align="right">2</div>
+| style="padding:0.079cm;"|
+| style="padding:0.079cm;"|
+| style="background-color:#99ccff;padding:0.079cm;"| <div align="right">'''16'''</div>
+|-
+| style="background-color:#99ccff;padding:0.079cm;"| <center>'''4'''</center>
+| style="padding:0.079cm;"| Kim, Nam Deog
+| style="padding:0.079cm;"| <div align="right"></div>
+| style="padding:0.079cm;"|
+| style="padding:0.079cm;"|
+| style="padding:0.079cm;"|
+| style="padding:0.079cm;"|
+| style="padding:0.079cm;"|
+| style="padding:0.079cm;"| <div align="right">7</div>
+| style="padding:0.079cm;"| <div align="right">6</div>
+| style="padding:0.079cm;"| <div align="right">3</div>
+| style="padding:0.079cm;"|
+| style="padding:0.079cm;"|
+| style="background-color:#99ccff;padding:0.079cm;"| <div align="right">'''16'''</div>
+|-
+| style="background-color:#99ccff;padding:0.079cm;"| <center>'''5'''</center>
+| style="padding:0.079cm;"| Tyan, Yuan Sheng
+| style="padding:0.079cm;"| <div align="right"></div>
+| style="padding:0.079cm;"|
+| style="padding:0.079cm;"|
+| style="padding:0.079cm;"|
+| style="padding:0.079cm;"| <div align="right">2</div>
+| style="padding:0.079cm;"| <div align="right">7</div>
+| style="padding:0.079cm;"| <div align="right">3</div>
+| style="padding:0.079cm;"| <div align="right">1</div>
+| style="padding:0.079cm;"| <div align="right">1</div>
+| style="padding:0.079cm;"| <div align="right">1</div>
+| style="padding:0.079cm;"|
+| style="background-color:#99ccff;padding:0.079cm;"| <div align="right">'''15'''</div>
+|-
+| style="background-color:#99ccff;padding:0.079cm;"| <center>'''6'''</center>
+| style="padding:0.079cm;"| Winters, Dustin
+| style="padding:0.079cm;"| <div align="right"></div>
+| style="padding:0.079cm;"|
+| style="padding:0.079cm;"|
+| style="padding:0.079cm;"|
+| style="padding:0.079cm;"| <div align="right">2</div>
+| style="padding:0.079cm;"| <div align="right">5</div>
+| style="padding:0.079cm;"| <div align="right">5</div>
+| style="padding:0.079cm;"| <div align="right">2</div>
+| style="padding:0.079cm;"| <div align="right">1</div>
+| style="padding:0.079cm;"|
+| style="padding:0.079cm;"|
+| style="background-color:#99ccff;padding:0.079cm;"| <div align="right">'''15'''</div>
+|-
+| style="background-color:#99ccff;padding:0.079cm;"| <center>'''7'''</center>
+| style="padding:0.079cm;"| Choi, Dong Soo
+| style="padding:0.079cm;"| <div align="right"></div>
+| style="padding:0.079cm;"|
+| style="padding:0.079cm;"|
+| style="padding:0.079cm;"|
+| style="padding:0.079cm;"|
+| style="padding:0.079cm;"|
+| style="padding:0.079cm;"|
+| style="padding:0.079cm;"| <div align="right">13</div>
+| style="padding:0.079cm;"| <div align="right">1</div>
+| style="padding:0.079cm;"|
+| style="padding:0.079cm;"|
+| style="background-color:#99ccff;padding:0.079cm;"| <div align="right">'''14'''</div>
+|-
+| style="background-color:#99ccff;padding:0.079cm;"| <center>'''8'''</center>
+| style="padding:0.079cm;"| Choi, Joon Hoo
+| style="padding:0.079cm;"| <div align="right"></div>
+| style="padding:0.079cm;"|
+| style="padding:0.079cm;"|
+| style="padding:0.079cm;"|
+| style="padding:0.079cm;"|
+| style="padding:0.079cm;"| <div align="right">2</div>
+| style="padding:0.079cm;"| <div align="right">3</div>
+| style="padding:0.079cm;"| <div align="right">4</div>
+| style="padding:0.079cm;"| <div align="right">5</div>
+| style="padding:0.079cm;"|
+| style="padding:0.079cm;"|
+| style="background-color:#99ccff;padding:0.079cm;"| <div align="right">'''14'''</div>
+|-
+| style="background-color:#99ccff;padding:0.079cm;"| <center>'''9'''</center>
+| style="padding:0.079cm;"| Kwak, Won Kyu
+| style="padding:0.079cm;"| <div align="right"></div>
+| style="padding:0.079cm;"|
+| style="padding:0.079cm;"|
+| style="padding:0.079cm;"|
+| style="padding:0.079cm;"|
+| style="padding:0.079cm;"| <div align="right">1</div>
+| style="padding:0.079cm;"| <div align="right">1</div>
+| style="padding:0.079cm;"| <div align="right">9</div>
+| style="padding:0.079cm;"| <div align="right">1</div>
+| style="padding:0.079cm;"| <div align="right">1</div>
+| style="padding:0.079cm;"| <div align="right">1</div>
+| style="background-color:#99ccff;padding:0.079cm;"| <div align="right">'''14'''</div>
+|-
+| style="background-color:#99ccff;padding:0.079cm;"| <center>'''10'''</center>
+| style="padding:0.079cm;"| Miller, Michael
+| style="padding:0.079cm;"| <div align="right"></div>
+| style="padding:0.079cm;"|
+| style="padding:0.079cm;"|
+| style="padding:0.079cm;"|
+| style="padding:0.079cm;"| <div align="right">4</div>
+| style="padding:0.079cm;"| <div align="right">4</div>
+| style="padding:0.079cm;"| <div align="right">2</div>
+| style="padding:0.079cm;"| <div align="right">1</div>
+| style="padding:0.079cm;"| <div align="right">1</div>
+| style="padding:0.079cm;"| <div align="right">1</div>
+| style="padding:0.079cm;"| <div align="right">1</div>
+| style="background-color:#99ccff;padding:0.079cm;"| <div align="right">'''14'''</div>
+|-
+| style="background-color:#99ccff;padding:0.079cm;"| <center>'''11'''</center>
+| style="padding:0.079cm;"| Park, Jae Yong
+| style="padding:0.079cm;"| <div align="right"></div>
+| style="padding:0.079cm;"|
+| style="padding:0.079cm;"|
+| style="padding:0.079cm;"| <div align="right">2</div>
+| style="padding:0.079cm;"| <div align="right">8</div>
+| style="padding:0.079cm;"| <div align="right">4</div>
+| style="padding:0.079cm;"|
+| style="padding:0.079cm;"|
+| style="padding:0.079cm;"|
+| style="padding:0.079cm;"|
+| style="padding:0.079cm;"|
+| style="background-color:#99ccff;padding:0.079cm;"| <div align="right">'''14'''</div>
+|-
+| style="background-color:#99ccff;padding:0.079cm;"| <center>'''12'''</center>
+| style="padding:0.079cm;"| Shore, Joel
+| style="padding:0.079cm;"| <div align="right"></div>
+| style="padding:0.079cm;"|
+| style="padding:0.079cm;"|
+| style="padding:0.079cm;"|
+| style="padding:0.079cm;"| <div align="right">2</div>
+| style="padding:0.079cm;"| <div align="right">2</div>
+| style="padding:0.079cm;"| <div align="right">5</div>
+| style="padding:0.079cm;"| <div align="right">3</div>
+| style="padding:0.079cm;"| <div align="right">1</div>
+| style="padding:0.079cm;"| <div align="right">1</div>
+| style="padding:0.079cm;"|
+| style="background-color:#99ccff;padding:0.079cm;"| <div align="right">'''14'''</div>
+|-
+| style="background-color:#99ccff;padding:0.079cm;"| <center>'''13'''</center>
+| style="padding:0.079cm;"| Arnold, Andrew
+| style="padding:0.079cm;"| <div align="right"></div>
+| style="padding:0.079cm;"|
+| style="padding:0.079cm;"|
+| style="padding:0.079cm;"|
+| style="padding:0.079cm;"| <div align="right">4</div>
+| style="padding:0.079cm;"| <div align="right">5</div>
+| style="padding:0.079cm;"| <div align="right">1</div>
+| style="padding:0.079cm;"| <div align="right">1</div>
+| style="padding:0.079cm;"| <div align="right">1</div>
+| style="padding:0.079cm;"| <div align="right">1</div>
+| style="padding:0.079cm;"|
+| style="background-color:#99ccff;padding:0.079cm;"| <div align="right">'''13'''</div>
+|-
+| style="background-color:#99ccff;padding:0.079cm;"| <center>'''14'''</center>
+| style="padding:0.079cm;"| Boroson, Michael
+| style="padding:0.079cm;"| <div align="right"></div>
+| style="padding:0.079cm;"|
+| style="padding:0.079cm;"|
+| style="padding:0.079cm;"| <div align="right">1</div>
+| style="padding:0.079cm;"|
+| style="padding:0.079cm;"| <div align="right">4</div>
+| style="padding:0.079cm;"| <div align="right">3</div>
+| style="padding:0.079cm;"| <div align="right">1</div>
+| style="padding:0.079cm;"|
+| style="padding:0.079cm;"| <div align="right">4</div>
+| style="padding:0.079cm;"|
+| style="background-color:#99ccff;padding:0.079cm;"| <div align="right">'''13'''</div>
+|-
+| style="background-color:#99ccff;padding:0.079cm;"| <center>'''15'''</center>
+| style="padding:0.079cm;"| Goh, Joon Chul
+| style="padding:0.079cm;"| <div align="right"></div>
+| style="padding:0.079cm;"|
+| style="padding:0.079cm;"|
+| style="padding:0.079cm;"|
+| style="padding:0.079cm;"|
+| style="padding:0.079cm;"| <div align="right">1</div>
+| style="padding:0.079cm;"| <div align="right">4</div>
+| style="padding:0.079cm;"| <div align="right">5</div>
+| style="padding:0.079cm;"| <div align="right">3</div>
+| style="padding:0.079cm;"|
+| style="padding:0.079cm;"|
+| style="background-color:#99ccff;padding:0.079cm;"| <div align="right">'''13'''</div>
+|-
+| style="background-color:#99ccff;padding:0.079cm;"| <center>'''16'''</center>
+| style="padding:0.079cm;"| Tanaka, Masahiro
+| style="padding:0.079cm;"| <div align="right"></div>
+| style="padding:0.079cm;"|
+| style="padding:0.079cm;"|
+| style="padding:0.079cm;"|
+| style="padding:0.079cm;"|
+| style="padding:0.079cm;"| <div align="right">1</div>
+| style="padding:0.079cm;"| <div align="right">1</div>
+| style="padding:0.079cm;"| <div align="right">1</div>
+| style="padding:0.079cm;"| <div align="right">5</div>
+| style="padding:0.079cm;"| <div align="right">4</div>
+| style="padding:0.079cm;"| <div align="right">1</div>
+| style="background-color:#99ccff;padding:0.079cm;"| <div align="right">'''13'''</div>
+|-
+| style="background-color:#99ccff;padding:0.079cm;"| <center>'''17'''</center>
+| style="padding:0.079cm;"| Choong, Vi En
+| style="padding:0.079cm;"| <div align="right"></div>
+| style="padding:0.079cm;"|
+| style="padding:0.079cm;"|
+| style="padding:0.079cm;"|
+| style="padding:0.079cm;"|
+| style="padding:0.079cm;"| <div align="right">5</div>
+| style="padding:0.079cm;"| <div align="right">5</div>
+| style="padding:0.079cm;"| <div align="right">2</div>
+| style="padding:0.079cm;"|
+| style="padding:0.079cm;"|
+| style="padding:0.079cm;"|
+| style="background-color:#99ccff;padding:0.079cm;"| <div align="right">'''12'''</div>
+|-
+| style="background-color:#99ccff;padding:0.079cm;"| <center>'''18'''</center>
+| style="padding:0.079cm;"| Ghosh, Amalkumar
+| style="padding:0.079cm;"| <div align="right">2</div>
+| style="padding:0.079cm;"| <div align="right">1</div>
+| style="padding:0.079cm;"|
+| style="padding:0.079cm;"|
+| style="padding:0.079cm;"| <div align="right">1</div>
+| style="padding:0.079cm;"| <div align="right">3</div>
+| style="padding:0.079cm;"| <div align="right">5</div>
+| style="padding:0.079cm;"|
+| style="padding:0.079cm;"|
+| style="padding:0.079cm;"|
+| style="padding:0.079cm;"|
+| style="background-color:#99ccff;padding:0.079cm;"| <div align="right">'''12'''</div>
+|-
+| style="background-color:#99ccff;padding:0.079cm;"| <center>'''19'''</center>
+| style="padding:0.079cm;"| Kim, Eun Ah
+| style="padding:0.079cm;"| <div align="right"></div>
+| style="padding:0.079cm;"|
+| style="padding:0.079cm;"|
+| style="padding:0.079cm;"|
+| style="padding:0.079cm;"|
+| style="padding:0.079cm;"| <div align="right">1</div>
+| style="padding:0.079cm;"| <div align="right">2</div>
+| style="padding:0.079cm;"|
+| style="padding:0.079cm;"|
+| style="padding:0.079cm;"|
+| style="padding:0.079cm;"| <div align="right">9</div>
+| style="background-color:#99ccff;padding:0.079cm;"| <div align="right">'''12'''</div>
+|-
+| style="background-color:#99ccff;padding:0.079cm;"| <center>'''20'''</center>
+| style="padding:0.079cm;"| Kobayashi Hidekazu
+| style="padding:0.079cm;"| <div align="right"></div>
+| style="padding:0.079cm;"|
+| style="padding:0.079cm;"|
+| style="padding:0.079cm;"|
+| style="padding:0.079cm;"|
+| style="padding:0.079cm;"| <div align="right">1</div>
+| style="padding:0.079cm;"| <div align="right">2</div>
+| style="padding:0.079cm;"| <div align="right">2</div>
+| style="padding:0.079cm;"| <div align="right">5</div>
+| style="padding:0.079cm;"| <div align="right">1</div>
+| style="padding:0.079cm;"| <div align="right">1</div>
+| style="background-color:#99ccff;padding:0.079cm;"| <div align="right">'''12'''</div>
+|-
+| style="background-color:#99ccff;padding:0.079cm;"| <center>'''21'''</center>
+| style="background-color:#99ccff;padding:0.079cm;"| '''Total Result'''
+| style="background-color:#99ccff;padding:0.079cm;"| <div align="right">'''2'''</div>
+| style="background-color:#99ccff;padding:0.079cm;"| <div align="right">'''1'''</div>
+| style="background-color:#99ccff;padding:0.079cm;"| <div align="right">'''1'''</div>
+| style="background-color:#99ccff;padding:0.079cm;"| <div align="right">'''6'''</div>
+| style="background-color:#99ccff;padding:0.079cm;"| <div align="right">'''45'''</div>
+| style="background-color:#99ccff;padding:0.079cm;"| <div align="right">'''67'''</div>
+| style="background-color:#99ccff;padding:0.079cm;"| <div align="right">'''72'''</div>
+| style="background-color:#99ccff;padding:0.079cm;"| <div align="right">'''90'''</div>
+| style="background-color:#99ccff;padding:0.079cm;"| <div align="right">'''47'''</div>
+| style="background-color:#99ccff;padding:0.079cm;"| <div align="right">'''18'''</div>
+| style="background-color:#99ccff;padding:0.079cm;"| <div align="right">'''15'''</div>
+| style="background-color:#99ccff;padding:0.079cm;"| <div align="right">'''362'''</div>
 |}
-*Note1: Use the following credentials to view the dashboard 1.1
+===Most Cited Patents===
-**Username: demo@dolcera.com
+{|border="2" cellspacing="0" cellpadding="4" width="100%"
-**Password: demo123
+| style="background-color:#99ccff;padding:0.079cm;"| <center>'''S.No'''</center>
+| style="background-color:#99ccff;padding:0.079cm;"| <center>'''Publication Number'''</center>
+| style="background-color:#99ccff;padding:0.079cm;"| <center>'''Assignee/Applicant'''</center>
+| style="background-color:#99ccff;padding:0.079cm;"| <center>'''Title'''</center>
+| style="background-color:#99ccff;padding:0.079cm;"| <center>'''Publication Date'''</center>
+| colspan="3"  style="background-color:#99ccff;padding:0.079cm;"| <center>'''Count of Citing Patents'''</center>
+|-
+| style="background-color:#99ccff;padding:0.079cm;"| <center>'''1'''</center>
+| style="padding:0.079cm;"| US6069443A
+| style="padding:0.079cm;"| Fed Corporation
+| style="padding:0.079cm;"| Passive matrix OLED display
+| style="padding:0.079cm;"| <div align="right">30/05/2000</div>
+| style="padding:0.079cm;"| <center>97</center>
+|-
+| style="background-color:#99ccff;padding:0.079cm;"| <center>'''2'''</center>
+| style="padding:0.079cm;"| US6366017B1
+| style="padding:0.079cm;"| Agilent Technologies
+| style="padding:0.079cm;"| Organic light emitting diodes with distributed bragg reflector
+| style="padding:0.079cm;"| <div align="right">02/04/2002</div>
+| style="padding:0.079cm;"| <center>80</center>
+|-
+| style="background-color:#99ccff;padding:0.079cm;"| <center>'''3'''</center>
+| style="padding:0.079cm;"| US20020197511A1
+| style="padding:0.079cm;"| United Of America As Respresented By The Secretary Of The Air Force
+| style="padding:0.079cm;"| High efficiency multi-color electro-phosphorescent OLEDS
+| style="padding:0.079cm;"| <div align="right">26/12/2002</div>
+| style="padding:0.079cm;"| <center>51</center>
+|-
+| style="background-color:#99ccff;padding:0.079cm;"| <center>'''4'''</center>
+| style="padding:0.079cm;"| US6265820B1
+| style="padding:0.079cm;"| Emagin Corporation,De
+| style="padding:0.079cm;"| Heat removal system for use in organic light emitting diode displays having high brightness
+| style="padding:0.079cm;"| <div align="right">24/07/2001</div>
+| style="padding:0.079cm;"| <center>50</center>
+|-
+| style="background-color:#99ccff;padding:0.079cm;"| <center>'''5'''</center>
+| style="padding:0.079cm;"| US20020195968A1
+| style="padding:0.079cm;"| IBM
+| style="padding:0.079cm;"| Oled current drive pixel circuit
+| style="padding:0.079cm;"| <div align="right">26/12/2002</div>
+| style="padding:0.079cm;"| <center>44</center>
+|-
+| style="background-color:#99ccff;padding:0.079cm;"| <center>'''6'''</center>
+| style="padding:0.079cm;"| US20020186209A1
+| style="padding:0.079cm;"| Eastman Kodak Company
+| style="padding:0.079cm;"| Touch screen for use with an OLED display
+| style="padding:0.079cm;"| <div align="right">12/12/2002</div>
+| style="padding:0.079cm;"| <center>42</center>
+|-
+| style="background-color:#99ccff;padding:0.079cm;"| <center>'''7'''</center>
+| style="padding:0.079cm;"| US20030127973A1
+| style="padding:0.079cm;"| Universal Display Corporation
+| style="padding:0.079cm;"| OLEDs having increased external electroluminescence quantum efficiencies
+| style="padding:0.079cm;"| <div align="right">10/07/2003</div>
+| style="padding:0.079cm;"| <center>41</center>
+|-
+| style="background-color:#99ccff;padding:0.079cm;"| <center>'''8'''</center>
+| style="padding:0.079cm;"| US6844673B1
+| style="padding:0.079cm;"| Alien Technology Corporation
+| style="padding:0.079cm;"| Split-fabrication for light emitting display structures
+| style="padding:0.079cm;"| <div align="right">18/01/2005</div>
+| style="padding:0.079cm;"| <center>38</center>
+|-
+| style="background-color:#99ccff;padding:0.079cm;"| <center>'''9'''</center>
+| style="padding:0.079cm;"| US20040174116A1
+| style="padding:0.079cm;"| Universal Display Corporation
+| style="padding:0.079cm;"| Transparent electrodes
+| style="padding:0.079cm;"| <div align="right">09/09/2004</div>
+| style="padding:0.079cm;"| <center>36</center>
+|-
+| style="background-color:#99ccff;padding:0.079cm;"| <center>'''10'''</center>
+| style="padding:0.079cm;"| US20050194896A1
+| style="padding:0.079cm;"| Hitachi Displays Ltd.
+| style="padding:0.079cm;"| Light emitting element and display device and illumination device using the light emitting element
+| style="padding:0.079cm;"| <div align="right">08/09/2005</div>
+| style="padding:0.079cm;"| <center>35</center>
+|-
+| style="background-color:#99ccff;padding:0.079cm;"| <center>'''11'''</center>
+| style="padding:0.079cm;"| US20020074935A1
+| style="padding:0.079cm;"| Universal Display Corporation
+| style="padding:0.079cm;"| Highly stable and efficient OLEDs with a phosphorescent-doped mixed layer architecture
+| style="padding:0.079cm;"| <div align="right">20/06/2002</div>
+| style="padding:0.079cm;"| <center>35</center>
+|-
+| style="background-color:#99ccff;padding:0.079cm;"| <center>'''12'''</center>
+| style="padding:0.079cm;"| US20040217702A1
+| style="padding:0.079cm;"| Corning Incorporated
+| style="padding:0.079cm;"| Light extraction designs for organic light emitting diodes
+| style="padding:0.079cm;"| <div align="right">04/11/2004</div>
+| style="padding:0.079cm;"| <center>33</center>
+|-
+| style="background-color:#99ccff;padding:0.079cm;"| <center>'''13'''</center>
+| style="padding:0.079cm;"| US20020030647A1
+| style="padding:0.079cm;"| Universal Display Corporation
+| style="padding:0.079cm;"| Uniform active matrix oled displays
+| style="padding:0.079cm;"| <div align="right">14/03/2002</div>
+| style="padding:0.079cm;"| <center>32</center>
+|-
+| style="background-color:#99ccff;padding:0.079cm;"| <center>'''14'''</center>
+| style="padding:0.079cm;"| US20050248270A1
+| style="padding:0.079cm;"| Eastman Kodak Company
+| style="padding:0.079cm;"| Encapsulating OLED devices
+| style="padding:0.079cm;"| <div align="right">10/11/2005</div>
+| style="padding:0.079cm;"| <center>31</center>
+|-
+| style="background-color:#99ccff;padding:0.079cm;"| <center>'''15'''</center>
+| style="padding:0.079cm;"| US20040113875A1
+| style="padding:0.079cm;"| Eastman Kodak Company
+| style="padding:0.079cm;"| Color oled display with improved power efficiency
+| style="padding:0.079cm;"| <div align="right">17/06/2004</div>
+| style="padding:0.079cm;"| <center>29</center>
+|-
+| style="background-color:#99ccff;padding:0.079cm;"| <center>'''16'''</center>
+| style="padding:0.079cm;"| US20030230972A1
+| style="padding:0.079cm;"| Eastman Kodak Company
+| style="padding:0.079cm;"| Oled display having color filters for improving contrast
+| style="padding:0.079cm;"| <div align="right">18/12/2003</div>
+| style="padding:0.079cm;"| <center>28</center>
+|-
+| style="background-color:#99ccff;padding:0.079cm;"| <center>'''17'''</center>
+| style="padding:0.079cm;"| US20050040756A1
+| style="padding:0.079cm;"| Eastman Kodak Company
+| style="padding:0.079cm;"| OLED device having microcavity gamut subpixels and a within gamut subpixel
+| style="padding:0.079cm;"| <div align="right">24/02/2005</div>
+| style="padding:0.079cm;"| <center>27</center>
+|-
+| style="background-color:#99ccff;padding:0.079cm;"| <center>'''18'''</center>
+| style="padding:0.079cm;"| US6670772B1
+| style="padding:0.079cm;"| Eastman Kodak Company
+| style="padding:0.079cm;"| Organic light emitting diode display with surface plasmon outcoupling
+| style="padding:0.079cm;"| <div align="right">30/12/2003</div>
+| style="padding:0.079cm;"| <center>26</center>
+|-
+| style="background-color:#99ccff;padding:0.079cm;"| <center>'''19'''</center>
+| style="padding:0.079cm;"| US20040061136A1
+| style="padding:0.079cm;"| Eastman Kodak Company
+| style="padding:0.079cm;"| Organic light-emitting device having enhanced light extraction efficiency
+| style="padding:0.079cm;"| <div align="right">01/04/2004</div>
+| style="padding:0.079cm;"| <center>26</center>
+|}
+===Most Cited Patents Mapping===
+[[Image:most.png|thumb|center| 1000 px|Most Cited Patents]]
+===Technology Mapping===
+* In OLED devices not all internally generated light is coupled out of the device (only 20%-50%), which reduces the device efficiency and lifetime.
+* Modification in structures are applied to improve outcouple efficiency in order to enhance the efficiency and lifetime of top emission OLEDs.
+* Below is a snapshot of how various organizations are using different design structures, using the same principle of internal reflection, to achieve higher out-coupling efficiencies.
+====Comparison of out coupling of waveguiding light in top-emission polyLED stack====
+[[Image:Slide-oled.jpg|thumb|center| 500 px|]]
+* Some light is reflected out of the OLED at stray angles in typical cases. By using a barrier material (form of microparticles) in the cathode layer, this light at stray angles hits the barrier material, and some of it is reflected back and guided out at the right angles, reducing light loss.
+[[Image:Slide-oled1.jpg|thumb|center| 500 px|]]
+* Microparticles are incorporated in the substrate, which prevents light loss by reflecting light emitted at stray angles.
+[[Image:Slide-oled2.jpg|thumb|center| 500 px|]]
+* A highly reflective anode is provided made of Aluminium or Silver, with a mirror like finish, to reflect light.
+[[Image:Slide-oled3.jpg|thumb|center| 500 px|]]
+* A shielding layer is provided below the anode, across its entire surface, thus increasing the surface area from which light can be reflected outside.
+[[Image:Slide-oled4.jpg|thumb|center| 500 px|]]
+* The reflective layer, anode, is made of a highly reflective surface like Aluminium alloy or silver.
+====Conclusion====
+The innovation is towards:
+* Incorporating micro-particles structure over the substrate that provide a reflective surface.
+* Highly reflective materials using metals like Molybdenum etc.
-*<font size = "4">Note2: </font><font color="#FF0000"><font size = "4">A total of 131 patents were considered for the creation of the sample dashboard</font></font>
-==LTE Release 8==
-[[media:Lte_rel8.zip|LTE Release 8]]
-==Meeting minutes==
-Click [http://ftp.3gpp.org/specs/html-info/Meetings-RP.htm#RP-ah-27107 here] for the meeting minutes.
 ==<span style="color:#C41E3A">Like this report?</span>==
@@ Line 801: / Line 1,994: @@
 |}
 <br>
-==References==
-* '''Stefania Sesia, Issam Toufik, and Matthew Baker, "LTE - The UMTS Long Term Evolution - From Theory to Practice", John Wiley & Sons, 2009,'''
-* Martin Sauter, "From GSM to LTE - An Introduction to Mobile Networks and Mobile Broadband", John Wiley & Sons, 2010,
-* Erik Dahlman, Stefan Parkvall, Johan Sköld, Per Beming, "3G Evolution - HSPA and LTE for Mobile Broadband", 2nd edition, Academic Press, 2008,
-* Mustafa Ergen, "Mobile Broadband - Including WiMAX and LTE", Springer, NY, 2009
-* Borko Furht, Syed A. Ahson, "Long Term Evolution: 3GPP LTE Radio And Cellular Technology", CRC Press, 2009,
-* Ezio Biglieri, Robert calderbank, Anthony Constantinides et.al ,"MIMO Wireless Communications" Cambridge University Press, 2007
 ==Contact Dolcera==

Difference between pages "LTE" and "OLED - Organic Light Emitting Diode"

Revision as of 21:55, 9 February 2012

Contents

Introduction

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Top Emission OLED: Search Strategy

Control Patents

Patent Classes

Concept Table

Micropatent Search Strategy

Scientific Literature Search

Search in Japanese database

Taxonomy

Sample Analysis

Patent Analysis

Article Analysis

Top Cited Patents

Top Cited Articles

Dolcera Dashboard

Products

Market Research

Major Players

Market Forecast

Recent Licensing Activities in OLED Segment

Landscape Analysis Of Top-Emmission OLED

Competitor Landscape

Top Assignee

Filing trends over the publication years

Filing trends over the priority years

Geographical Distribution based on family members

Key Inventor Mapping

Most Cited Patents

Most Cited Patents Mapping

Technology Mapping

Comparison of out coupling of waveguiding light in top-emission polyLED stack

Conclusion

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