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Muhammad Usman Fazili

from Audubon, PA
Age ~59
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Also known as:
Muhammad U Fazili, Muhammad V Fazili, Usman Fazili Muhammad, Usman Faziu Muhammad, Fazili Muhammad, Muhammad I
Phone and address:
1731 Osprey Dr, Norristown, PA 19403
(610) 539-1481
Related to:
Irtiqa Fazili, 29Shazia Fazili, 56Sabeena Fazili, 52Mohammad F Fazili, 65
Connected to:
Farrah Fazily, 36Kobra Fazily, 61Alyssa J Fazio, 30Audrey L Fazio, 43Christopher D Fazio, 55Claudia V Fazio, 50Craig S Fazio, 53Deborah J Fazio, 62Derrick P Fazio, 44Dustin Fazio, 34

Muhammad Fazili Phones & Addresses

  • 1731 Osprey Dr, Norristown, PA 19403 (610) 539-1481
  • 304 Norris Hall Ln, Norristown, PA 19403 (610) 539-1481
  • Audubon, PA
  • 3855 Blair Mill Rd, Horsham, PA 19044 (215) 674-2930
  • Perrysburg, OH
  • Waterville, OH

Work

Company: Interdigital communications Jan 1, 2009 Position: Member technical staff at interdigital communications

Education

Degree: Masters, Master of Science In Electrical Engineering School / High School: Villanova University 2000 to 2005

Skills

3Gpp • Ofdm • Phy • Ieee 802.11 • Mimo • 4G • Lte • Baseband • Hspa • Digital Signal Processors • Cdma2000 • Algorithms • Debugging • Embedded Software • Wlan • Protocol Stacks

Emails

m***[email protected]

Industries

Wireless

Resumes

Resumes

Muhammad Fazili Photo 1

Member Technical Staff At Interdigital Communications

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Location:
200 Bellevue Pkwy, Wilmington, DE 19809
Industry:
Wireless
Work:
Interdigital Communications
Member Technical Staff at Interdigital Communications
Idcc 2000 - 2009
Member Technical Staff
Interdigital Communications Jan 2005 - Jan 2008
Senior Staff Engineer
Education:
Villanova University 2000 - 2005
Masters, Master of Science In Electrical Engineering The University of Toledo 2000 - 2003
Masters, Master of Science In Electrical Engineering
Skills:
3Gpp
Ofdm
Phy
Ieee 802.11
Mimo
4G
Lte
Baseband
Hspa
Digital Signal Processors
Cdma2000
Algorithms
Debugging
Embedded Software
Wlan
Protocol Stacks

Publications

Us Patents

Cdma System Transmission Matrix Coefficient Calculation

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US Patent:
6792032, Sep 14, 2004
Filed:
Dec 28, 2001
Appl. No.:
10/040994
Inventors:
Ryan Samuel Buchert - Breinigsville PA
Chayil Timmerman - Harlesyville PA
Peter Edward Becker - Coatesville PA
Muhammad Usman Fazili - Jeffersonville PA
Assignee:
InterDigital Technology Corporation - Wilmington DE
International Classification:
H04K 100
US Classification:
375147, 375130, 370335, 370342
Abstract:
An apparatus and method for data processing particularly useful in combining convolutions of the spreading code, scrambling code and channel response in order to construct a system transmission coefficient matrix, while maintaining the same circuit size and execution time relative to performing each convolution separately. One register for processing real channel response values and a second register for processing imaginary channel response values, are used for moving channel responses through the convolution. In place of multipliers, an optimized minimum number of adders connected in a pyramid configuration are used to perform the necessary multiplication of the codes, for simplicity of construction. By including the channel code transformation from binary representation to complex representation as part of the overall method, unnecessary adders are eliminated from the apparatus.

Cdma System Transmission Matrix Coefficient Calculation

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US Patent:
6959034, Oct 25, 2005
Filed:
Aug 17, 2004
Appl. No.:
10/920137
Inventors:
Ryan Samuel Buchert - Phoenixville PA, US
Chayil S. Timmerman - Harleysville PA, US
Peter Edward Becker - Coatesville PA, US
Muhammad Usman Fazili - Jeffersonville PA, US
Assignee:
InterDigital Technology Corporation - Wilmington DE
International Classification:
H04K001/00
US Classification:
375147, 375130, 370335, 370342
Abstract:
An apparatus and method for data processing particularly useful in combining convolutions of the spreading code, scrambling code and channel response in order to construct a system transmission coefficient matrix, while maintaining the same circuit size and execution time relative to performing each convolution separately. One register for processing real channel response values and a second register for processing imaginary channel response values, are used for moving channel responses through the convolution. In place of multipliers, an optimized minimum number of adders connected in a pyramid configuration are used to perform the necessary multiplication of the codes, for simplicity of construction. By including the channel code transformation from binary representation to complex representation as part of the overall method, unnecessary adders are eliminated from the apparatus.

Open Loop Spatial Processing

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US Patent:
20120275530, Nov 1, 2012
Filed:
Apr 26, 2012
Appl. No.:
13/457145
Inventors:
Shahrokh Nayeb Nazar - Quebec, CA
Robert L. Olesen - Huntington NY, US
Manasa Raghavan - West Babylon NY, US
Muhammad U. Fazili - Audubon PA, US
William E. Lawton - Parker Ford PA, US
Yingxue K. Li - Exton PA, US
Assignee:
INTERDIGITAL PATENT HOLDINGS, INC. - Wilmington DE
International Classification:
H04L 1/02
US Classification:
375267
Abstract:
Methods and apparatus for multiple-input multiple-output (MIMO) transmissions are disclosed. A base station may precode wireless transmit/receive unit (WTRU)-specific reference signals and data that are transmitted to a WTRU using a randomly selected precoder. The precoder may be selected based on a predefined precoder selection sequence or by the base station. A different precoder may be applied to different resource blocks (RBs). In addition, a large delay cyclic delay diversity (CDD) or discrete Fourier transform (DFT) spreading may be applied on the WTRU-specific reference signals and the data. For heterogeneous deployed antennas, spatial diversity gain is achieved by dynamically scheduling resources between transmission points. A hopping scheme may be applied across the transmission points as the resources are dynamically partitioned between the transmission points. A different randomly selected precoder may be applied to each RB transmitted from a different transmission point.

Digital Signal Processor For Multistandard Television Reception

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US Patent:
61477133, Nov 14, 2000
Filed:
Mar 9, 1998
Appl. No.:
9/037292
Inventors:
Clyde Robbins - Maple Glen PA
Robert Friedman - Jamison PA
Muhammad Fazili - Horsham PA
Assignee:
General Instrument Corporation - Horsham PA
International Classification:
H04N 546
US Classification:
348555
Abstract:
A television converter uses digital signal processing (DSP) to provide compatibility with different television standards including NTSC and PAL video standards and FM, BTSC, DIN, Home Theatre, NICAM and independent digital audio standards. Audio processing is accomplished without passing the audio through a Nyquist filter used for video. This eliminates AM to PM conversion improving luminance linearity and differential gain and phase. It also prevents video information from phase modulating the audio intercarrier, thereby eliminating video "buzz" components in the audio. The audio processing includes a synchronous FM demodulator and a separate synchronous FM/QPSK demodulator for handling the different audio standards. Handling historical analog TV standards with DSP also enables the advantageous combination of analog and digital television reception within a single digital VLSI ASIC.

Systems, Apparatus And Methods For Dynamic Network Reconfiguration In The Presence Of Narrowband Interferers

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US Patent:
20230067492, Mar 2, 2023
Filed:
Aug 25, 2022
Appl. No.:
17/895678
Inventors:
- Wilmington DE, US
Philip Pietraski - Jericho NY, US
Alpaslan Demir - East Meadow NY, US
Joseph Murray - Schwenksville PA, US
Muhammad Fazili - Audubon PA, US
Joe Huang - Montville NJ, US
Tariq Elkourdi - New York NY, US
Patrick Cabrol - Bayshore NY, US
Paul Russell - Lawrence NJ, US
Assignee:
IDAC HOLDINGS, INC. - Wilmington DE
International Classification:
H04W 52/24
H04W 52/36
Abstract:
Embodiments disclosed and described herein provide systems, apparatus and methods by which advanced networks including 5G capable networks and devices can operate to meet standards, while coexisting with non-telecommunication devices that propagate energy at frequencies within bands used by the 5G capable networks and devices. In particular, systems, apparatus and methods disclosed herein mitigate risk of the networks interfering with the propagated energy while maintaining operation of the networks and protecting the networks and devices from the energy.

System And Method For Implementing Pdsch Enhancements For Radar Coexistence

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US Patent:
20230069431, Mar 2, 2023
Filed:
Aug 26, 2022
Appl. No.:
17/896260
Inventors:
- Wilmington DE, US
Alpaslan Demir - East Meadow NY, US
Sudhir Pattar - Mount Laurel NJ, US
Philip Pietraski - Jericho NY, US
Joe Huang - Montville NJ, US
Muhammad Fazili - Audubon PA, US
Tariq Elkourdi - New York NY, US
Patrick Cabrol - Bayshore NY, US
Paul Russell - Lawrence NJ, US
Assignee:
IDAC HOLDINGS, INC. - Wilmington DE
International Classification:
H04W 72/12
Abstract:
A method performed by a base station may compromise: receiving RADAR information; sending scheduling information, wherein the scheduling information includes a set of time and frequency resources associated with a physical downlink transmission that avoid RADAR interference, and wherein the set of time and frequency resources is determined based on the RADAR information; and sending the physical downlink transmission using resources based on the set of time and frequency resources.

Systems And Methods For Improved Uplink Coverage

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US Patent:
20210367713, Nov 25, 2021
Filed:
Aug 10, 2021
Appl. No.:
17/398970
Inventors:
- Wilmington DE, US
Paul Marinier - Brossard, CA
Diana Pani - Montreal, CA
Ghyslain Pelletier - Montreal, CA
Christopher R. Cave - Dollard-des-Ormeaux, CA
Lakshmi R. Iyer - King of Prussia PA, US
Muhammad U. Fazili - Audubon PA, US
Assignee:
InterDigital Patent Holdings, Inc. - Wilmington DE
International Classification:
H04L 1/16
H04L 1/18
H04W 72/04
H04L 5/00
Abstract:
Systems and method are specified to improve the reception of UL transmission, for example in power or coverage limited situations. A WTRU may modify procedures to increase the available signal energy for reception at an eNB and/or to make more efficient use of the available signal energy at the receiver for processing UL transmissions. Example methods for increasing UL link coverage may include modifying HARQ timing (e.g., shorter HARQ), using longer TTIs, use of dedicated PUSCH allocations, use of new PUSCH modulations, enhanced reference signal design, UL macro diversity reception for PUSCH, utilizing protocol reduction techniques, ensuring in-order packet delivery, and/or utilizing a configuration for coverage limited/power limited modes of operation. The proposed methods may be applied individually or in any combination.

Rach Procedures In Unlicensed Spectrum

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US Patent:
20200107373, Apr 2, 2020
Filed:
Jun 14, 2018
Appl. No.:
16/621426
Inventors:
- Wilmington DE, US
J. Patrick Tooher - Montreal, CA
Alpaslan Demir - East Meadow NY, US
Moon-il Lee - Melville NY, US
Muhammad U. Fazili - Audubon PA, US
Kevin T. Wanuga - Souderton PA, US
Sanjay Goyal - Deer Park NY, US
Mihaela Beluri - Jericho NY, US
Scott M. Newton - Commack NY, US
Assignee:
IDAC Holdings, Inc. - Wilmington DE
International Classification:
H04W 74/08
H04W 24/08
H04L 5/00
H04L 12/26
Abstract:
Systems, methods, and instrumentalities are disclosed for Random Access Channel (RACH) procedures in unlicensed spectrum. A wireless transmit/receive unit (WTRU) may monitor for a random access response (RAR) or a reference signal (RS), e.g. in an RAR window. The WTRU may determine whether an RS has been received a threshold amount of times, e.g. if an RAR is not received. The WTRU may continue to monitor for an RAR or an RS, e.g. if the RS has not been received a threshold amount of times and the RAR window is not at a maximum RAR window size.
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Muhammad Usman Fazili from Audubon, PA, age ~59 Get Report