Search

Ashley N Penna

from Olympic Valley, CA
Age ~38
Get Report
Related to:
Christopher M Lyon, 43George M Pena, 62Sonny PenaEvelyn E Masoner, 33Diane J Penna, 69John P Penna, 70Ashley P Masoner, 37Kristen M Penna, 36Lance O Masoner, 65Catherine J Penna, 66
Connected to:
Acyr J Penna, 45Alexia Penna, 37Dewayne A Penna, 66Gustina M Penna, 45Jamie Penna, 56Maurice F Penna, 81Ralph A Penna, 72Rashel Penna, 32Renee M Penna, 43Billie J Pennabaker, 64

Ashley Penna Phones & Addresses

  • Olympic Valley, CA
  • San Francisco, CA
  • Louisville, CO
  • Los Altos, CA
  • Santa Clara, CA
  • Louisville, CO
  • Longmont, CO

Resumes

Resumes

Ashley Penna Photo 1

Ashley Penna

View page
Location:
San Francisco Bay Area
Industry:
Consumer Electronics
Ashley Penna Photo 2

Software Engineer

View page
Location:
142 Germania St, San Francisco, CA 94117
Industry:
Consumer Electronics
Work:
Dolby Laboratories since Dec 2010
Sr. Design Engineer
Skills:
Matlab
Image Processing
C++
Algorithms
C
Testing
Digital Signal Processors
Engineering
R&D
Signal Processing
Embedded Systems
Embedded Software
Fpga
Vhdl
Debugging
Firmware
Color Science
Languages:
English
Ashley Penna Photo 3

Ashley Penna

View page
Ashley Penna Photo 4

Ashley Penna

View page
Ashley Penna Photo 5

Ashley Penna

View page
Location:
United States

Publications

Us Patents

Variable Flower Display Backlight System

View page
US Patent:
20120200617, Aug 9, 2012
Filed:
Oct 13, 2010
Appl. No.:
13/502095
Inventors:
Neil Mammen - San Jose CA, US
Ashley Penna - San Francisco CA, US
Ajit Ninan - San Jose CA, US
Assignee:
DOLBY LABORATORIES LICENSING CORPORATION - SAN FRANCISCO CA
International Classification:
G09G 5/10
G02F 1/13357
G09F 13/10
US Classification:
345690, 362 974, 349 61
Abstract:
Techniques for using variable flower assemblies to control light leakage between designated portions of light-emitting elements are provided. In some embodiments, a variable flower assembly () comprises a plurality of light-transmissive segments (---) each may be electronically set to a different light-transparency level. The variable flower assembly substantially forms a tube around a light-emitting element () mounted on a first plane. A first edge of each of the light-transmissive segments collectively surrounds the light-emitting element on a second plane substantially parallel to the first plane. A second opposing edge of each of the light-transmissive segments collectively forms an opening of the tube. In some embodiments, a reflective assembly () which reflectance level is electronically controllable may surround the variable flower assembly.

Rendering Wide Color Gamut Two-Dimensional (2D) Images On Three-Dimensional (3D) Capable Displays

View page
US Patent:
20220239874, Jul 28, 2022
Filed:
Apr 5, 2022
Appl. No.:
17/713434
Inventors:
- San Francisco CA, US
Martin J. RICHARDS - Gig Harbor WA, US
Ashley PENNA - San Francisco CA, US
Assignee:
Dolby Laboratories Licensing Corporation - San Francisco CA
International Classification:
H04N 9/31
G09G 3/34
G09G 5/02
Abstract:
A display for displaying image data includes defining virtual color gamuts based on a plurality of primary display colors associated with a light source. At least one of the virtual color gamuts is defined to approximate an established color gamut. Intensity values associated with the virtual color gamuts are generated based on received video data, and the intensity values associated with the virtual color gamuts are used to generate drive values for the primary colors of the light source. A display using one or more virtual color gamuts is also disclosed.

Rendering Wide Color Gamut Two-Dimensional (2D) Images On Three-Dimensional (3D) Capable Displays

View page
US Patent:
20210021794, Jan 21, 2021
Filed:
Oct 6, 2020
Appl. No.:
17/064578
Inventors:
- San Francisco CA, US
Martin J. RICHARDS - Gig Harbor WA, US
Ashley PENNA - San Francisco CA, US
Assignee:
Dolby Laboratories Licensing Corporation - San Francisco CA
International Classification:
H04N 9/31
G09G 3/34
G09G 5/02
Abstract:
A display for displaying image data includes defining virtual color gamuts based on a plurality of primary display colors associated with a light source. At least one of the virtual color gamuts is defined to approximate an established color gamut. Intensity values associated with the virtual color gamuts are generated based on received video data, and the intensity values associated with the virtual color gamuts are used to generate drive values for the primary colors of the light source. A display using one or more virtual color gamuts is also disclosed.

Rendering Wide Color Gamut Two-Dimensional (2D) Images On Three-Dimensional (3D) Capable Displays

View page
US Patent:
20190238809, Aug 1, 2019
Filed:
Jun 22, 2017
Appl. No.:
16/312256
Inventors:
- San Francisco CA, US
Martin RICHARDS - Gig Harbor WA, US
Ashley PENNA - San Francisco CA, US
Assignee:
Dolby Laboratories Licensing Corporation - San Francisco CA
International Classification:
H04N 9/31
G09G 5/02
G09G 3/34
Abstract:
A display for displaying image data includes defining virtual color gamuts based on a plurality of primary display colors associated with a light source. At least one of the virtual color gamuts is defined to approximate an established color gamut. Intensity values associated with the virtual color gamuts are generated based on received video data, and the intensity values associated with the virtual color gamuts are used to generate drive values for the primary colors of the light source. A display using one or more virtual color gamuts is also disclosed.

Variable Flower Display Backlight System

View page
US Patent:
20140354709, Dec 4, 2014
Filed:
Aug 18, 2014
Appl. No.:
14/462216
Inventors:
- San Francisco CA, US
Ashley Penna - Louisville CO, US
Ajit Ninan - San Jose CA, US
International Classification:
F21V 14/00
G09G 3/34
F21V 8/00
G02F 1/1335
US Classification:
345690, 362555, 349 62
Abstract:
Techniques for using variable flower assemblies to control light leakage between designated portions of light-emitting elements are provided. In some embodiments, a variable flower assembly comprises a plurality of light-transmissive segments each may be electronically set to a different light-transparency level. The variable flower assembly substantially forms a tube around a light-emitting element mounted on a first plane. A first edge of each of the light-transmissive segments collectively surrounds the light-emitting element on a second plane substantially parallel to the first plane. A second opposing edge of each of the light-transmissive segments collectively forms an opening of the tube. In some embodiments, a reflective assembly which reflectance level is electronically controllable may surround the variable flower assembly.
Control profile
Ashley N Penna from Olympic Valley, CA, age ~38 Get Report