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Yassir Azziz Phones & Addresses

  • 2751 Wemberly Dr, Belmont, CA 94002
  • Foster City, CA
  • Santa Clara, CA
  • 428 Memorial Dr, Cambridge, MA 02139 (617) 577-0085
  • Gainesville, FL

Work

Company: Facebook Jun 2018 Position: Technical program manager

Education

Degree: Doctorates, Doctor of Philosophy School / High School: Massachusetts Institute of Technology 2003 to 2007 Specialities: Engineering, Philosophy

Skills

Engineering Management • Systems Design • Matlab

Languages

English • Arabic

Industries

Defense & Space

Resumes

Resumes

Yassir Azziz Photo 1

Technical Program Manager

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Location:
2751 Wemberly Dr, Belmont, CA 94002
Industry:
Defense & Space
Work:
Facebook
Technical Program Manager

Space Systems Loral 2017 - 2018
Chief of Staff To Group President

Space Systems Loral Jan 1, 2015 - 2017
Leo Satellite Program Manager

Space Systems Loral 2014 - 2015
Geo Satellite Systems Engineering Manager

Space Systems Loral 2012 - 2014
Systems Engineering Discipline Lead
Education:
Massachusetts Institute of Technology 2003 - 2007
Doctorates, Doctor of Philosophy, Engineering, Philosophy
Massachusetts Institute of Technology 2001 - 2003
Masters, Engineering
Massachusetts Institute of Technology 1998 - 2001
Bachelors, Engineering
Massachusetts Institute of Technology
Master of Science, Masters
Skills:
Engineering Management
Systems Design
Matlab
Languages:
English
Arabic

Publications

Us Patents

Satellite Orbit Raising Using Electric Propulsion

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US Patent:
20120097796, Apr 26, 2012
Filed:
Oct 20, 2010
Appl. No.:
12/925386
Inventors:
Saghir Munir - Union City CA, US
Darren Stratemeier - Mountain View CA, US
Xen Price - Redwood City CA, US
Yassir Azziz - San Mateo CA, US
Jorge Delgado - San Jose CA, US
Justo Jacinto - Palo Alto CA, US
International Classification:
B64G 1/10
B64G 1/28
B64G 1/40
B64G 1/24
US Classification:
2441586
Abstract:
Apparatus and methods for raising the orbit of a satellite having electric propulsion thrusters, an Earth sensor and an inertial reference sensor such as a gyro. A satellite positioning system generates orbital data and a profile generator generates an ideal electric orbit raising profile of the satellite. The ideal profile is one that the satellite must follow so that the perigee, apogee and inclination of the satellite can be adjusted simultaneously in a mass-efficient manner. A state machine processes the ideal profile and a true anomaly to generate a desired electric orbit raising profile. Steering apparatus generates signals that are used to control the attitude of the satellite to follow the desired profile. The desired profile places the satellite in an Earth-pointed attitude when the satellite is at a predefined point in the orbit, slews the satellite from the Earth-pointed attitude to an ideal orbit raising attitude, steers the satellite according to the ideal profile during orbit raising, and steers the satellite from the desired attitude to the Earth-pointed attitude.

Antenna Tracking Profile Estimation

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US Patent:
8179313, May 15, 2012
Filed:
May 13, 2010
Appl. No.:
12/779872
Inventors:
Yassir Azziz - San Mateo CA, US
Alicia Kavelaars - Berkeley CA, US
Xen Price - Redwood City CA, US
David Cielaszyk - Longmont CO, US
Rob Schwarz - Los Gatos CA, US
Assignee:
Space Systems/Loral, Inc. - Palo Alto CA
International Classification:
H01Q 3/00
H04B 7/185
US Classification:
342359, 342354, 342358
Abstract:
Estimation of a desired antenna tracking profile is provided for a radio frequency autotracked (RFAT) antenna in the absence of a ground reference. A first RFAT antenna subsystem has a first antenna and a first antenna positioning mechanism (APM), each mounted on a vehicle, and a first ground-based RF beacon; a second RFAT antenna subsystem has a second antenna and a second APM, each mounted on the vehicle, and a second ground-based RF beacon. A controller stores an accumulated record of actuations of the second APM as a function of time under normal operation, calculates a desired antenna tracking profile for the second antenna, from a first ground-based RF beacon and from the accumulated record, excluding any real-time data from the second ground-based RF beacon, and transmits actuation commands to the second APM so as to cause the second antenna to track the desired antenna tracking profile.

Efficiently Scalable Systems

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US Patent:
20210319130, Oct 14, 2021
Filed:
Jun 22, 2021
Appl. No.:
17/354957
Inventors:
- Menlo Park CA, US
Wenlong Dong - Clyde Hill WA, US
Marc Alexander Celani - Naperville IL, US
Xianliang Zha - El Dorado Hills CA, US
Yunqing Chen - Los Altos CA, US
Harikrishna Madadi Reddy - SanJose CA, US
Junqiang Lan - Fremont CA, US
Chien Cheng Liu - San Jose CA, US
Raghuvardhan Moola - Fremont CA, US
Haluk Ucar - Los Gatos CA, US
Sujith Srinivasan - Fremont CA, US
Handong Li - Union City CA, US
Xing Cindy Chen - Los Altos CA, US
Tuo Wang - San Jose CA, US
Zhao Wang - Newark CA, US
Baheerathan Anandharengan - Milpitas CA, US
Gaurang Chaudhari - Sunnyvale CA, US
Prahlad Rao Venkatapuram - Saratoga CA, US
Srikanth Alaparthi - Fremont CA, US
James Alexander Morle - Dripping Springs TX, US
Vincent Matthew Malfa - Thousand Oaks CA, US
Yassir Azziz - Belmont CA, US
Chien-Chung Chen - Thousand Oaks CA, US
Yan Cui - Newark CA, US
Pedro Eugenio Rocha Pedreira - San Francisco CA, US
Stavros Harizopoulos - San Francisco CA, US
International Classification:
G06F 21/62
G06F 16/22
G06F 16/901
G06T 3/40
Abstract:
The disclosed may include various systems and methods for improving the efficiency and scalability of large-scale systems. For example, the disclosed may include systems and methods for automatic privacy enforcement using privacy-aware infrastructure, scalable general-purpose low cost integer motion search, efficient scaler filter coefficients layout for flexible scaling quality control with limited hardware resources, hardware optimization for power saving with both different codecs enabled, optimizing storage overhead and performance for large distributed data warehouse, mass and volume efficient integration of intersatellite link terminals to a satellite bus, and overcoming retention limit for memory-based distributed database systems.
Yassir Azziz from Belmont, CA, age ~45 Get Report