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Jay K Hurley

from Aptos, CA
Age ~50
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Also known as:
Jay Kenneth Hurley
Phone and address:
610 Ord St, Aptos, CA 95003
(831) 251-5389
Related to:
Eduard L Verhagen, 81Hans Eric Onsum, 34Keith Eric Onsum, 71Gerald L Hurley, 87Katharine Verhagen, 80Shelley L Verhagen, 81Ryan C Hurley, 52Wendy R Hurley, 81Kristin A Hurley, 50Joelle Verhagen, 48Katharine VerhagenBeverly M Hurley, 85Grett L Hurley, 53Grett L Hurley
Connected to:
Alan J Hurley, 64Albert J Hurley, 58Alexis M Hurley, 47Alma Hurley, 92Angie Hurley, 54Anne Hurley, 72Arianna E Hurley, 29Benny L Hurley, 60Braun T Hurley, 37Brent M Hurley, 54

Jay Hurley Phones & Addresses

  • 610 Ord St, Aptos, CA 95003 (831) 251-5389
  • Tarpon Springs, FL
  • Aromas, CA
  • Watsonville, CA
  • Santa Cruz, CA
  • Capitola, CA
  • San Benito, CA
  • 414 Carpenteria Rd, Aromas, CA 95004

Resumes

Resumes

Jay Hurley Photo 1

Vice President Of Engineering

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Location:
4742 Scotts Valley Dr, Scotts Valley, CA 95066
Industry:
Internet
Work:
Ringo Ai
Vice President of Engineering
Lumenetix Inc. May 2015 - Dec 2018
Senior Product Architect
Digital Nest 2014 - 2014
Technology Advisor
Crossloop Jun 2008 - Nov 2013
Director of Engineering
Hurley Research Jun 2008 - Nov 2013
Founder
Skills:
Mobile Applications
Cloud Computing
E Commerce
Start Ups
Agile Methodologies
Xml
Perl
Html
Saas
Css
Fx Options
Javascript
Linux
Php
Product Management
Sql
Seo
Jay Hurley Photo 2

Jay Hurley

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Jay Hurley Photo 3

Director Of Operations

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Industry:
Aviation & Aerospace
Work:
Jamaica Aerospace
Director of Operations
Skills:
Microsoft Office
Microsoft Excel
Microsoft Word
Customer Service
Powerpoint
English
Windows
Research
Outlook
Teaching
Photoshop
Public Speaking
Html
Strategic Planning
Budgets
Negotiation
Editing
C++
C
Java
Jay Hurley Photo 4

Jay Hurley

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Jay Hurley Photo 5

Jay Hurley

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Jay Hurley Photo 6

Jay Hurley

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Jay Hurley Photo 7

Jay Hurley

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Jay Hurley Photo 8

Jay Hurley

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Business Records

Name / Title
Company / Classification
Phones & Addresses
Jay K. Hurley
President
JAY HURLEY CORPORATION
129B Benito Ave, Santa Cruz, CA 95062
129 Benito Ave, Santa Cruz, CA 95062
Jay Kenneth Hurley
Chatocaster LLC
Software Development and Services · Business Services at Non-Commercial Site · Nonclassifiable Establishments
414 Carpenteria Rd, Aromas, CA 95004

Publications

Wikipedia

Patrick J. Hurley

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Patrick Jay Hurley (January 8, 1883, Choctaw Nation, Indian Territory July 30, 1963, Santa Fe, NM) was an American soldier, statesman, and diplomat.

Us Patents

Three Party Services Transaction System

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US Patent:
20100125526, May 20, 2010
Filed:
Feb 6, 2009
Appl. No.:
12/367494
Inventors:
Jay Hurley - Watsonville CA, US
Dave Brown - Carmel Valley CA, US
Lisa Alderson - Monterey CA, US
Tom Rolander - Pacific Grove CA, US
Vikram Subramaniam - San Jose CA, US
Assignee:
CROSSLOOP INC. - Monterey CA
International Classification:
G06Q 30/00
G06Q 10/00
G06Q 20/00
US Classification:
705 80, 705 34
Abstract:
A method of entering into and performing a service agreement, comprising maintaining a provider account database comprising records for service providers; providing a website that enables a customer to interactively select a service provider from the provider account database; enabling said service provider to provide an electronic estimate form that includes a description of work to be perform and an estimated price; enabling said customer to accept or reject said price estimate; enabling said service provider to submit a bill for work performed following acceptance of said price estimate; enabling said customer and said service provider to exchange messages via interactive chat wherein said chat is in reference to exchanged forms and bill data; and electronically obtaining money from the customer and transferring the money to an account from which the service provider is paid.

Real-Time Collaborative Selection Of Service Providers

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US Patent:
20100205100, Aug 12, 2010
Filed:
Dec 21, 2009
Appl. No.:
12/643949
Inventors:
Jay Hurley - Watsonville CA, US
Greg McCullough - San Jose CA, US
Vikram Subramaniam - San Jose CA, US
Assignee:
CROSSLOOP INC. - Monterey CA
International Classification:
G06Q 30/00
G06Q 10/00
G06F 17/30
G06F 15/16
G06F 3/01
US Classification:
705 80, 705 27, 705317, 707802, 709206, 715758, 707E17005
Abstract:
A method and system for customer service, comprising enabling a customer to provide a request for service, receiving the request for service from the customer and providing a website that enables a service provider to view the request for service, interactively chat about the request for service with other service providers, and respond to the request for service by creating and sending an offer of service to the customer and enabling the customer to accept the offer of service.

Mobile Device Application For Remotely Controlling An Led-Based Lamp

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US Patent:
20130221852, Aug 29, 2013
Filed:
Feb 13, 2013
Appl. No.:
13/766745
Inventors:
Thomas Poliquin - Aptos CA, US
Jay Hurley - Watsonville CA, US
Assignee:
Lumenetix, Inc. - Scotts Valley CA
International Classification:
H05B 33/08
US Classification:
315131, 315158
Abstract:
A mobile application is disclosed that allows a user to configure an LED-based lamp. The LED-based lamp has the capability of color matching color spectrums and calibrating its correlated color temperatures, brightness, and hue based on a color model. The mobile application can send or schedule commands actively or passively to activate the color matching and calibration process on the LED-based lamp. The mobile application can further receive status information regarding the LED-based lamp including fault detection, estimated life time, temperature, power consumption, or any combination thereof.

Full-Spectrum Flash For Electronic Devices

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US Patent:
20220260892, Aug 18, 2022
Filed:
Mar 28, 2022
Appl. No.:
17/656869
Inventors:
- Santa Cruz CA, US
Jay Hurley - Aptos CA, US
Jeffrey Saake - San Francisco CA, US
International Classification:
G03B 15/05
H04N 5/341
H04N 5/225
G03B 43/00
H04N 5/232
G06K 9/00
H04N 9/04
G06T 7/90
H05B 45/20
H05B 47/125
G06V 10/56
G06V 10/141
G06V 30/194
G06V 40/13
Abstract:
Introduced here are light sources for flash photography configured to produce high-fidelity white light that is tunable over a broader range of correlated color temperatures (CCTs) than conventional flash technologies. The light source can include multiple independently controllable color channels representing illuminants (e.g., light-emitting diodes) of different colors with varying degrees of saturation. Operating collectively, the multiple color channels can produce a high spectral quality white light corresponding to different CCTs (e.g., “warm” white light having a red hue, “cool” white light having a blue hue). Operating independently, these same color channels can be pre-flashed in a variety of prescribed sequences to probe the spectral characteristics of a scene, thereby allowing for an enhanced, spectrally matched white flash as well as collecting per-pixel reflectivity data that can be later used in during post processing of the captured image.

Electromagnetic Emitters And Detectors For Electronic Devices

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US Patent:
20220180654, Jun 9, 2022
Filed:
Feb 28, 2022
Appl. No.:
17/652726
Inventors:
- Santa Cruz CA, US
Jay Hurley - Aptos CA, US
Jeffrey Saake - San Francisco CA, US
International Classification:
G06V 40/13
G06T 7/90
H04N 9/04
G06K 9/00
H04N 5/232
G03B 43/00
G03B 15/05
H04N 5/225
H04N 5/341
H05B 45/20
G06V 10/56
G06V 10/141
G06V 30/194
Abstract:
Introduced here are multi-channel light sources able to produce a broad range of electromagnetic radiation. A multi-channel light source (also referred to as a “multi-channel emitter”) can be designed to produce visible light and/or non-visible light. For example, some embodiments of the multi-channel light source include illuminant(s) capable of emitting electromagnetic radiation within the visible range and illuminant(s) capable of emitting electromagnetic radiation in a non-visible range, such as the ultraviolet range or infrared range. By capturing images in conjunction with the visible and non-visible light, additional information on the ambient scene can be gleaned which may be useful, for example, during post-processing.

Determining Spectral Properties Of An Object Through Sequential Illumination With Different Colors

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US Patent:
20230017311, Jan 19, 2023
Filed:
Sep 2, 2022
Appl. No.:
17/929588
Inventors:
- Santa Cruz CA, US
Jay Hurley - Aptos CA, US
Jeffrey Saake - San Francisco CA, US
International Classification:
G06V 40/13
G06T 7/90
H04N 9/04
G06K 9/00
H04N 5/232
G03B 43/00
G03B 15/05
H04N 5/225
H04N 5/341
H05B 45/20
G01J 3/28
G06V 10/56
G06V 10/141
G06V 30/194
Abstract:
Introduced here are computer programs and associated computer-implemented techniques for determining reflectance of an image on a per-pixel basis. More specifically, a characterization module can initially acquire a first data set generated by a multi-channel light source and a second data set generated by a multi-channel image sensor. The first data set may specify the illuminance of each channel of the multi-channel light source (which may be able to produce visible light and/or non-visible light), while the second data set may specify the response of each sensor channel of the multi-channel image sensor (which is configured to capture an image in conjunction with the light). Thus, the characterization module may determine reflectance based on illuminance and sensor response. The characterization module may also be configured to determine illuminance based on reflectance and sensor response, or determine sensor response based on illuminance and reflectance.

Techniques For Creating Characterization Matrices For Reflectance, Illuminance, Or Sensor Response

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US Patent:
20210263393, Aug 26, 2021
Filed:
Apr 26, 2021
Appl. No.:
17/240602
Inventors:
- Santa Cruz CA, US
James KINGMAN - Woodside CA, US
Jay HURLEY - Aptos CA, US
Jeffrey SAAKE - San Francisco CA, US
Sanjoy GHOSE - Pismo Beach CA, US
International Classification:
G03B 15/05
G06K 9/00
H04N 5/341
H04N 5/225
G06K 9/66
G03B 43/00
G06K 9/20
H04N 5/232
H04N 9/04
G06K 9/46
G06T 7/90
H05B 45/20
H05B 47/125
Abstract:
Introduced here are computer programs and associated computer-implemented techniques for determining reflectance of an image on a per-pixel basis. More specifically, a characterization module can initially acquire a first data set generated by a multi-channel light source and a second data set generated by a multi-channel image sensor. The first data set may specify the illuminance of each color channel of the multi-channel light source (which is configured to produce a flash), while the second data set may specify the response of each sensor channel of the multi-channel image sensor (which is configured to capture an image in conjunction with the flash). Thus, the characterization module may determine reflectance based on illuminance and sensor response. The characterization module may also be configured to determine illuminance based on reflectance and sensor response, or determine sensor response based on illuminance and reflectance.

Full-Spectrum Flash For Electronic Devices

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US Patent:
20200334440, Oct 22, 2020
Filed:
Jul 2, 2020
Appl. No.:
16/919410
Inventors:
- Santa Cruz CA, US
Jay Hurley - Aptos CA, US
Jeffrey Saake - San Francisco CA, US
International Classification:
G06K 9/00
H04N 5/341
H04N 5/225
G06K 9/66
G03B 43/00
G06K 9/20
H04N 5/232
H04N 9/04
G06K 9/46
G06T 7/90
H05B 45/20
G03B 15/05
Abstract:
Introduced here are light sources for flash photography configured to produce high-fidelity white light that is tunable over a broader range of correlated color temperatures (CCTs) than conventional flash technologies. The light source can include multiple independently controllable color channels representing illuminants (e.g., light-emitting diodes) of different colors with varying degrees of saturation. Operating collectively, the multiple color channels can produce a high spectral quality white light corresponding to different CCTs (e.g., “warm” white light having a red hue, “cool” white light having a blue hue). Operating independently, these same color channels can be pre-flashed in a variety of prescribed sequences to probe the spectral characteristics of a scene, thereby allowing for an enhanced, spectrally matched white flash as well as collecting per-pixel reflectivity data that can be later used in during post processing of the captured image.
Control profile
Jay K Hurley from Aptos, CA, age ~50 Get Report