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Madhan M Jaganathan

from Cupertino, CA
Age ~43
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Also known as:
Madhan Mohan Jaganathan, Madhan Mohan Jaganthan, Madhan M Jaganthan, Madhan N
Phone and address:
20041 Northwood Dr, Cupertino, CA 95014
Related to:
Malini C Jaganathan, 41
Connected to:
Jayaraj Jaganathan, 41Mohan Jaganathan, 53Mohana Jaganathan, 51Neha Jaganathan, 34Priya Jaganathan, 38Rizwan Jagani, 31Aditya Jagannath, 37Anand T Jagannathan, 51Arvind V Jagannathan, 35Christine Jagannathan, 62

Madhan Jaganathan Phones & Addresses

  • 20041 Northwood Dr, Cupertino, CA 95014
  • 996 Belmont Ter UNIT 1, Sunnyvale, CA 94086
  • Santa Clara, CA
  • 921 Oak Ave, Irvine, CA 92618 (949) 387-5099
  • Santa Cruz, CA
  • San Jose, CA

Work

Company: Qualcomm May 2011 Position: Staff systems engineer

Education

Degree: Masters of Science School / High School: University of California, Santa Cruz 2005 to 2007 Specialities: Electrical Engineering

Skills

Microsoft Office • Engineering • Autocad • Microsoft Excel • Mechanical Engineering • Computer Aided Design • Solidworks • Pumps • Sump Pumps • Water Pumps • Mechanical Product Design • Embedded Systems • Debugging • Digital Signal Processors • C • Asic • Verilog • Soc • Embedded Software • Firmware • Algorithms • Perl • Rtl Design • Wireless • Wifi • Dsp • Matlab • Wireless Technologies

Industries

Information Technology And Services

Resumes

Resumes

Madhan Jaganathan Photo 1

Director Of Engineering

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Location:
Santa Clara, CA
Industry:
Information Technology And Services
Work:
Qualcomm since May 2011
Staff Systems Engineer
Atheros Communications Sep 2009 - May 2011
Senior Systems Engineer
Realtek Semiconductor Corp. Wionics Research Oct 2007 - Jul 2009
Asic and Systems Design/Firmware Engineer
Amicus Wireless 2007 - 2007
Intern
Texas Instruments Jul 2002 - Jul 2005
Design Engineer
Education:
University of California, Santa Cruz 2005 - 2007
Masters of Science, Electrical Engineering Anna University 1998 - 2002
Bachelor of Science, Electronics and Communication
Skills:
Microsoft Office
Engineering
Autocad
Microsoft Excel
Mechanical Engineering
Computer Aided Design
Solidworks
Pumps
Sump Pumps
Water Pumps
Mechanical Product Design
Embedded Systems
Debugging
Digital Signal Processors
C
Asic
Verilog
Soc
Embedded Software
Firmware
Algorithms
Perl
Rtl Design
Wireless
Wifi
Dsp
Matlab
Wireless Technologies

Publications

Us Patents

Adaptive Target Wake Time Scheduling

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US Patent:
20180295573, Oct 11, 2018
Filed:
Apr 6, 2017
Appl. No.:
15/481106
Inventors:
- San Diego CA, US
Sandip HomChaudhuri - San Jose CA, US
Zhanfeng Jia - Belmont CA, US
Alireza Raissinia - Monte Sereno CA, US
Srinivas Katar - Fremont CA, US
Madhan Jaganathan - Cupertino CA, US
Xiaolong Huang - San Jose CA, US
International Classification:
H04W 52/02
H04W 72/04
Abstract:
Methods, systems, and devices for wireless communication are described. An access point (AP) may communicate with a plurality of stations in a basic service set (BSS) according to a target wakeup time (TWT) slot duration. The AP may identify one or more congestion or interference factors for the BSS. In some cases, the AP may identify a congestion score based at least in part on at least one of the one or more congestion factors from one or more stations that can be part of its own BSS, and an interference score based at least in part on at least one of the one or more interference factors form one or more stations that are not part of AP's BSS. In some cases, the AP may modify the TWT slot duration based at least in part on the congestion score and the interference score.

Spatial-Time Fair Scheduling For Su And Mu Transmission Based On Physical Layer Capabilities

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US Patent:
20180242344, Aug 23, 2018
Filed:
Feb 16, 2018
Appl. No.:
15/932209
Inventors:
- San Diego CA, US
Madhan Jaganathan - Cupertino CA, US
Nathaniel David Houghton - San Jose CA, US
Madhavan Nair - Sunnyvale CA, US
Srinivas Katar - Fremont CA, US
Ahmed Ragab Elsherif - San Jose CA, US
International Classification:
H04W 72/12
H04W 72/04
Abstract:
A method, an apparatus, and a computer-readable medium for wireless communication are provided. In one aspect, an apparatus may be configured to determine a scheduling metric for each respective station of a plurality of stations. The scheduling metric for each station may be based on an effective spatial-time-frequency physical layer (PHY) capability for the station and a consumption rate of spatial-time-frequency resources by the respective station. The effective spatial-time-frequency PHY capability for the station may be a product of a target percentage of spatial-time resources allocated to the station, an effective number of spatial streams supported by the respective station, and a maximum bandwidth. The consumption rate of spatial-time-frequency resources may be a transmit opportunity (TXOP) moving average of consumption rate by the station. The apparatus may be configured to schedule each station of the plurality of stations for communication based on the determined scheduling metric for each respective station.

Signal Detection Verification

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US Patent:
20180035366, Feb 1, 2018
Filed:
Dec 8, 2016
Appl. No.:
15/373330
Inventors:
- San Diego CA, US
Madhan Jaganathan - Cupertino CA, US
Benjamin Gibbs - Sunnyvale CA, US
Suresh Nethirananthan - Cheyyar, IN
Ramachandran Kandasamy - Chennai, IN
Sriharsha Guntanoor - Chennai, IN
International Classification:
H04W 48/16
H04W 72/04
Abstract:
Various aspects of the disclosure relate to determining whether a signal detection function is properly detecting for a signal. In an example implementation, the signal detection function detects radar signals. If the signal detection function is not functioning as desired, communication on at least one wireless communication channel may be disabled.

Communication Mode Selection

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US Patent:
20170373789, Dec 28, 2017
Filed:
May 12, 2017
Appl. No.:
15/594430
Inventors:
- San Diego CA, US
Hao ZHU - Milpitas CA, US
Srinivas KATAR - Fremont CA, US
Naveen GANGADHARAN - San Diego CA, US
Madhan JAGANATHAN - Cupertino CA, US
Nathaniel David HOUGHTON - San Jose CA, US
Sabita NAHATA - Newark CA, US
Raja BANERJEA - San Jose CA, US
Alireza RAISSINIA - Monte Sereno CA, US
James CHO - Mountain View CA, US
Chao CHENG - Santa Clara CA, US
International Classification:
H04L 1/00
H04B 7/06
H04B 1/38
H04L 27/26
H04B 7/0452
Abstract:
A device includes a memory, a processor, and a transceiver. The memory is configured to store capability data corresponding to a set of stations. The processor is configured to select, based at least in part on the capability data, one of a multi-user multiple-input multiple-output (MU-MIMO) mode or an orthogonal frequency-division multiple access (OFDMA) mode for wireless communication with a subset of the set of stations. The transceiver is configured to wirelessly communicate with the subset in the selected one of the MU-MIMO mode or the OFDMA mode.
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Madhan M Jaganathan from Cupertino, CA, age ~43 Get Report