Senior QA Analyst Risk Review at Promontory Financial Group
Location:
Orange County, California Area
Industry:
Banking
Work:
Promontory Financial Group since Sep 2011
Senior QA Analyst Risk Review
ServiceLink Jan 2010 - Jan 2011
Loss Mitigation Team Lead
Mortgage Outreach Services Jan 2009 - Jan 2010
Loss Mitigation Processor/Closer
Citi Residential Lending Jan 2004 - Jan 2009
Servicing Team Lead
Education:
University of California, Riverside 1994 - 1999
Bachelor of Arts (B.A.), Psychology
University of California, Riverside 1994 - 1999
Bachelor of Arts (B.A.), Creative Writing
USC
Master's degree, Professional Writing
President/Ceo At Silicon Lightwave Technology, Inc.
President/CEO at Silicon Lightwave Technology, Inc.
Location:
Orange County, California Area
Industry:
Research
Work:
Silicon Lightwave Technology, Inc. since Aug 2000
President/CEO
Education:
University of California, Los Angeles 1994 - 1997
MSEE, Photonics & Optoelectronics
University of California, Los Angeles 1992 - 1994
BSEE, Physical & Waves Electronics
Director of IT Services at UAL, Director of IT Services at United Agribusiness League
Location:
Orange County, California Area
Industry:
Information Technology and Services
Work:
UAL
Director of IT Services
United Agribusiness League since 2007
Director of IT Services
Fullerton School District Sep 2000 - Jun 2007
System Specialist Sr.
Education:
California State University-Fullerton
Bachelor of Science (B.S.) Computer Science and Information Technology
A device for measuring wavelength of an electromagnetic signal has first and second waveguides configured such that a portion of an electromagnetic signal transmitted through the first waveguide is separated from the remaining portion of the electromagnetic signal and is communicated to the second waveguide and is subsequently at least partially recombined with the remaining electromagnetic signal in the first waveguide after traveling a distance which is different from a distance traveled by the remaining electromagnetic signal in the first waveguide. A first sensor is configured to measure the power of the electromagnetic signal in the first waveguide after at least a portion of the separated electromagnetic signal in the first waveguide has been recombined with the remaining electromagnetic signal in the first waveguide. A second sensor is configured to measure the power of the electromagnetic signal in the second waveguide after at least a portion of the separated electromagnetic signal in the second waveguide has been recombined with the remaining electromagnetic signal in the first waveguide. The first and second waveguides are formed upon and integrally with a common semiconductor substrate.
Methods And Apparatus For Multi-Probe Photonic Time-Stretch Spectral Measurements
MohammadHossein Asghari - Los Angeles CA, US Bahram Jalali - Los Angeles CA, US Paul Trinh - Lake Forest CA, US
Assignee:
The Regents of the University of California - Oakland CA Time Photonics, Inc. - Irvine CA
International Classification:
G01J 3/28 G01B 9/02
Abstract:
Methods and apparatus for multi-probe photonic time-stretch spectral measurements are described. Methods allow for capturing real-time and single-shot non-overlapping spectral bands from multiple probes simultaneously, using Time-Stretch Dispersive Fourier Transform (TS-DFT) systems combined with Wavelength Division Multiplexing (WDM) device.