Walker; Kenneth L.

Patent Applications and Registrations

Patent applications and USPTO patent grants for Walker; Kenneth L..The latest application filed is for "edge-lit back light unit with improved efficiency".

Company Profile

1.33.8

Walker; Kenneth L. - Durham NC
Walker; Kenneth L. - Semora NC
Walker; Kenneth L. - New Providence NJ
Walker; Kenneth L. - Union County NJ
Walker; Kenneth L. - Anderson County TN
Walker; Kenneth L. - Clinton TN
Walker; Kenneth L. - Florham Park NJ

*profile and listings may contain filings by different individuals or companies with the same name. Review application materials to confirm ownership/assignment.

Patent Activity

Patent	Date
Vertically integrated transmissive microstructures for transforming light having Lambertian distribution Grant 11,441,756 - Aspell , et al. September 13, 2	2022-09-13
Edge-lit Back Light Unit With Improved Efficiency App 20220197086 - Walker; Kenneth L. ; et al.	2022-06-23
Color Conversion Film Back Light Unit for Backlit Displays App 20220075229 - Walker; Kenneth L. ; et al.	2022-03-10
Back Light Unit For Backlit Displays App 20220043307 - WALKER; Kenneth L. ; et al.	2022-02-10
Back light unit for backlit displays Grant 11,181,776 - Walker , et al. November 23, 2	2021-11-23
Vertically Integrated Transmissive Microstructures For Transforming Light Having Lambertian Distribution App 20210231290 - ASPELL; Jennifer ; et al.	2021-07-29
Optical Film for Back Light Unit and Back Light Unit Including Same App 20210232004 - Aspell; Jennifer ; et al.	2021-07-29
Back Light Unit For Backlit Displays App 20210072598 - WALKER; Kenneth L. ; et al.	2021-03-11
Metallofullerene contrast agents Grant 9,233,177 - Macfarland , et al. January 12, 2	2016-01-12
Amphiphilic or lipophilic polar functionalized fullerenes and their uses Grant 8,241,648 - Zhou , et al. August 14, 2	2012-08-14
Metallofullerene Contrast Agents App 20110124848 - Macfarland; Darren K. ; et al.	2011-05-26
Amphiphilic or lipophilic polar functionalized fullerenes and their uses App 20080213324 - Zhou; Zhiguo ; et al.	2008-09-04
Article comprising a counter-pumped optical fiber raman amplifier Grant 5,623,508 - Grubb , et al. April 22, 1	1997-04-22
Single mode optical transmission fiber, and method of making the fiber Grant 5,596,668 - DiGiovanni , et al. January 21, 1	1997-01-21
Optical tapping filters employing long period gratings Grant 5,550,940 - Vengsarkar , et al. August 27, 1	1996-08-27
Intra-cavity optical four-wave mixer and optical communications system using the same Grant 5,550,671 - Simpson , et al. August 27, 1	1996-08-27
Gain control for optically amplified systems Grant 5,541,766 - Mizrahi , et al. July 30, 1	1996-07-30
Method for increasing the index of refraction of a glassy material Grant 5,500,031 - Atkins , et al. March 19, 1	1996-03-19
Optical fiber non-reciprocal phase shifters and optical isolators using them Grant 5,479,551 - DiGiovanni , et al. December 26, 1	1995-12-26
980 NM pumped erbium fiber amplifier Grant 5,457,568 - Jacobovitz-Veselka , et al. October 10, 1	1995-10-10
Article comprising a dispersion-compensating optical waveguide Grant 5,448,674 - Vengsarkar , et al. September 5, 1	1995-09-05
Article comprising optical fiber having low polarization mode dispersion, due to permanent spin Grant 5,418,881 - Hart, Jr. , et al. May 23, 1	1995-05-23
Optical fiber for wavelength division multiplexing Grant 5,327,516 - Chraplyvy , et al. July 5, 1	1994-07-05
Method of making a fiber having low polarization mode dispersion due to a permanent spin Grant 5,298,047 - Hart, Jr. , et al. March 29, 1	1994-03-29
Method of making an article comprising an optical component, and article comprising the component Grant 5,287,427 - Atkins , et al. February 15, 1	1994-02-15
Article comprising a rare earth or transition metal doped optical fiber Grant 5,274,734 - Jin , et al. December 28, 1	1993-12-28
Article comprising an optical waveguide containing a fluorescent dopant Grant 5,259,046 - DiGiovanni , et al. November 2, 1	1993-11-02
Method of making an article comprising an optical waveguide Grant 5,235,659 - Atkins , et al. August 10, 1	1993-08-10
Method and apparatus for contactless monitoring of tension in a moving fiber Grant 5,233,200 - DiMarcello , et al. August 3, 1	1993-08-03
Photorefractive optical fiber Grant 5,157,747 - Aktins , et al. October 20, 1	1992-10-20
Optical communication system comprising a fiber amplifier Grant 5,074,633 - Cohen , et al. December 24, 1	1991-12-24
Fabrication of doped filament optical fibers Grant 5,059,230 - Mollenauer , et al. October 22, 1	1991-10-22
System comprising Er-doped optical fiber Grant 5,058,976 - DiGiovanni , et al. October 22, 1	1991-10-22
Lightwave transmission system having remotely pumped quasi-distributed amplifying fibers Grant 5,039,199 - Mollenauer , et al. August 13, 1	1991-08-13
Small all terrain mobile robot Grant 5,022,812 - Coughlan , et al. June 11, 1	1991-06-11
All terrain mobile robot Grant 4,932,831 - White , et al. June 12, 1	1990-06-12
Low-loss silica optical waveguides Grant 4,770,494 - Csencsits , et al. September 13, 1	1988-09-13
Remotely controlled and/or powered mobile robot with cable management arrangement Grant 4,736,826 - White , et al. April 12, 1	1988-04-12
Doped optical fiber Grant 4,616,901 - MacChesney , et al. October 14, 1	1986-10-14
High rate optical fiber fabrication process using thermophoretically enhanced particle deposition Grant 4,302,230 - MacChesney , et al. November 24, 1	1981-11-24

Company Registrations

SEC

0001358195

Walker Kenneth L

uspto.report is an independent third-party trademark research tool that is not affiliated, endorsed, or sponsored by the United States Patent and Trademark Office (USPTO) or any other governmental organization. The information provided by uspto.report is based on publicly available data at the time of writing and is intended for informational purposes only.

While we strive to provide accurate and up-to-date information, we do not guarantee the accuracy, completeness, reliability, or suitability of the information displayed on this site. The use of this site is at your own risk. Any reliance you place on such information is therefore strictly at your own risk.

All official trademark data, including owner information, should be verified by visiting the official USPTO website at www.uspto.gov. This site is not intended to replace professional legal advice and should not be used as a substitute for consulting with a legal professional who is knowledgeable about trademark law.