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Sandeep Bhadra

from Addison, TX
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Also known as:
S Bhara
Related to:
Sagar Bhadra, 37
Connected to:
Amal Bhadra, 86Asmita Bhadra, 40Kayla R Bhadra, 35Pratik Bhadra, 41Sanjay Bhadra, 49Udayan K Bhadra, 78Hitesh R Bhadrecha, 52Sanjeev Bhadresa, 54Mona Bhadsavle, 48Kaushik Bhaduri, 52

Sandeep Bhadra Phones & Addresses

  • Addison, TX
  • Dallas, TX
  • Santa Clara, CA
  • Austin, TX
  • San Jose, CA

Work

Company: Texas instruments 2010 Position: Project lead

Education

School / High School: INSEAD- Paris (75) 2012 Specialities: Master of Business Administration

Skills

Technology Product Management • Business Development • Strategy • Valuation • Due Diligence • Competitive Analysis

Resumes

Resumes

Sandeep Bhadra Photo 1

Board Member

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Location:
2884 Sand Hill Rd, Menlo Park, CA 94025
Industry:
Venture Capital & Private Equity
Work:
Cisco Systems since Jan 2013
Corporate Development Manager
Education:
University of Pennsylvania - The Wharton School 2012 - 2012
MBA Exchange INSEAD 2012
MBA, Finance, Strategy The University of Texas at Austin 2008
PhD, Electrical Engineering Indian Institute of Technology, Madras 2003
Bachelor's degree, Electrical Engineering
Skills:
Venture Capital
Business Strategy
Product Management
Corporate Development
Strategy
Start Ups
Analysis
Cloud Computing
Algorithms
Software Development
Telecommunications
Embedded Systems
Project Management
Big Data
Sensors
Semiconductors
Matlab
Cross Functional Team Leadership
Management
Hardware
Portfolio Management
Ic
C++
Engineering
Simulations
Virtualization
Microcontrollers
Machine Learning
Cisco Technologies
Wifi
Languages:
Hindi
Bengali
Sandeep Bhadra Photo 2

Sandeep Bhadra

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Sandeep Bhadra Photo 3

Sandeep Bhadra Jersey City, NJ

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Work:
TEXAS INSTRUMENTS

2010 to 2000
Project Lead
JOLT CAPITAL
Paris (75)
2012 to 2012
Associate Intern
TEXAS INSTRUMENTS

2007 to 2009
Systems Engineer
SIFY LIMITED
Chennai, Tamil Nadu
2003 to 2003
Graduate Trainee, Internet service-provider
Education:
INSEAD
Paris (75)
2012 to 2012
Master of Business Administration
University of Pennsylvania - The Wharton School
2012 to 2012
MBA (Exchange)
THE UNIVERSITY OF TEXAS AT AUSTIN
Austin, TX
2004 to 2008
PhD in Electrical Engineering
INDIAN INSTITUTE OF TECHNOLOGY
Chennai, Tamil Nadu
2003
Bachelor of Technology
Skills:
Technology Product Management, Business Development, Strategy, Valuation, Due Diligence, Competitive Analysis
Sandeep Bhadra Photo 4

Sandeep Bhadra

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Publications

Amazon

This Is Not Available 005161

This is not available 005161

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This book is not available.
Author

Sandeep Bhadra

Binding

Paperback

Pages

178

Publisher

ProQuest, UMI Dissertation Publishing

ISBN #

1243472723

EAN Code

9781243472724

ISBN #

1

Us Patents

Radio Bearer Dependent Forwarding For Handover

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US Patent:
8169969, May 1, 2012
Filed:
Jun 18, 2008
Appl. No.:
12/141439
Inventors:
Ramanuja Vedantham - Dallas TX, US
Sandeep Bhadra - Dallas TX, US
Shantanu Kangude - Dallas TX, US
Seung Baek - Richardson TX, US
Assignee:
Texas Instruments Incorporated - Dallas TX
International Classification:
H04W 4/00
US Classification:
370331, 455436
Abstract:
This invention employs an inherent tradeoff in a radio bearer dependent data handling method for intra-E-UTRA handoffs. For user equipment using real time data, the source node forwards to the target node not yet acknowledged real time service data units and disconnects. This makes the handoff latency short at the expense of data traffic between nodes. For user equipment not needing real time data, the source node continues to receive user equipment acknowledgements during a time out period and only forwards service data units acknowledged during the time out period. This reduces X2 interface traffic between the source and target nodes but extends the handoff latency.

In-Band Backhaul For Wireless Relays In Wireless Networks

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US Patent:
8259637, Sep 4, 2012
Filed:
Jan 6, 2010
Appl. No.:
12/683291
Inventors:
Pierre Bertrand - Antibes, FR
Zukang Shen - Richardson TX, US
Eko N. Onggosanusi - Allen TX, US
Sandeep Bhadra - Addison TX, US
Anthony Ekpenyong - Dallas TX, US
Tarik Muharemovic - Dallas TX, US
Assignee:
Texas Instruments Incorporated - Dallas TX
International Classification:
H04B 7/14
H04W 4/00
H04Q 7/20
US Classification:
370315, 370328, 370348, 455450, 375260
Abstract:
This invention extends the coverage and improves the capacity of wireless communication networks using relay nodes. The relay nodes are wirelessly connected to the base station. The base station uses the same radio access technology for a link between the base station and user equipment and between the base station and the relay node. The relay node uses the same radio access technology for a link between the base station and the relay node and between the relay node and the user equipment. The relay node supports at least a Physical Layer (PHY), a Medium Access Control (MAC) sub-layer and a Radio Link Control (RLC) sub-layer protocol.

System And Method For Managing Radio Link Failures

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US Patent:
8280375, Oct 2, 2012
Filed:
Aug 12, 2008
Appl. No.:
12/190437
Inventors:
Shu Du - Richardson TX, US
Sandeep Bhadra - Dallas TX, US
Shantanu Kangude - Dallas TX, US
Ramanuja Vedantham - Dallas TX, US
Assignee:
Texas Instruments Incorporated - Dallas TX
International Classification:
H04J 3/08
US Classification:
455436, 370331
Abstract:
A wireless transmit/receive unit (WTRU) () in a wireless communications system includes a transceiver () for transmitting and receiving data from a plurality of base stations () and a controller () communicatively coupled to the transceiver () and configured to adjust an operation mode of the transceiver (). In the WTRU (), adjusting comprises configuring the transceiver () to begin a radio link handover procedure responsive to receiving a handover (HO) command from a first of the plurality of base stations () over a first communications link, specifying a first time, and reconfiguring the transceiver () to begin a radio link interruption procedure responsive to an expiry of the first time prior to completion of the radio link handover procedure. In the WTRU (), the radio link interruption procedure first attempts to re-establish the first communications link.

Protocol Stack And Scheduler For L3 Relay

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US Patent:
8305965, Nov 6, 2012
Filed:
Jan 6, 2010
Appl. No.:
12/683300
Inventors:
Zukang Shen - Allen TX, US
Pierre Bertrand - Antibes, FR
Sandeep Bhadra - Addison TX, US
Eko N. Onggosanusi - Allen TX, US
Anthony Ekpenyong - Dallas TX, US
Tarik Muharemovic - Forest Hills NY, US
Assignee:
Texas Instruments Incorporated - Dallas TX
International Classification:
H04B 7/14
H04W /00
H04Q 7/20
US Classification:
370328, 370315, 370329, 370348, 455 17, 455450, 375260
Abstract:
This invention is a method for extending the coverage and/or improving the capacity of wireless communication networks comprising inserting a Relay Node (RN) in the Radio Access Network (RAN). The relay node relays the signal between the Base Station node (eNB) and the User Equipment (UE). The relay node is wirelessly connected to the base station. The base station uses the same radio access technology (RAT) for the base station to user equipment link and the base station to relay node link. The relay node uses the same radio access technology for the base station to relay node link and the relay node to user equipment link. The relay node is non-transparent and seen as base station by the user equipment.

System And Method For Interference Reduction In Self-Optimizing Networks

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US Patent:
8463190, Jun 11, 2013
Filed:
Feb 26, 2010
Appl. No.:
12/660427
Inventors:
Sandeep Bhadra - Addison TX, US
Minghua Fu - Plano TX, US
Xiaolin Lu - Plano TX, US
Assignee:
Texas Instruments Incorporated - Dallas TX
International Classification:
H04B 1/00
US Classification:
455 631, 455450, 4554521, 455 6711, 455 6714, 455436, 455442, 370331, 370342, 370347, 370337, 375267, 709208
Abstract:
A method for interference management in a self optimizing network includes determining quality of service constraints for a call; mapping the quality of service constraints for the call to a target signal-to-interference noise ratio; and transmitting power control signals for the call based on the target signal-to-interference noise ratio. The utility function can be optimized for each class of calls over the network so as to maximize the total number of calls that can be handled.

Inter-Cell Interference Coordination

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US Patent:
8478342, Jul 2, 2013
Filed:
Nov 17, 2010
Appl. No.:
12/948281
Inventors:
Ramanuja Vedantham - Allen TX, US
Sandeep Bhadra - Addison TX, US
Assignee:
Texas Instruments Incorporated - Dallas TX
International Classification:
H04B 1/38
US Classification:
455561, 455509, 4554521, 4554565
Abstract:
A system and method for coordinating interference in cellular systems are disclosed herein. In one embodiment, a cellular base station interference coordinator includes an interference estimator. The interference estimator estimates a level of interference caused by transmissions controlled by a host base station for each of a plurality of radio resources, and provides interference estimates corresponding to the radio resources to a target base station. Each interference estimate is based on transmit power and channel strength to the target base station for each transmission controlled by the host base station for a radio resource.

System And Method Of Task Allocation In Multiprocessing Environment Based On Minimum Density Or Maximum Harmonicity That Results In Lower Clock Frequency

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US Patent:
8615763, Dec 24, 2013
Filed:
Feb 1, 2012
Appl. No.:
13/363983
Inventors:
Arvind Kandhalu Raghu - Pittsburgh PA, US
Sejoong Lee - Allen TX, US
Sandeep Bhadra - Dallas TX, US
Assignee:
Texas Instruments Incorporated - Dallas TX
International Classification:
G06F 9/46
US Classification:
718100, 718105
Abstract:
Systems and Methods for task allocation in a multiprocessor environment employing power management techniques are described wherein tasks are allocated relative to the density given by the ratio of worst-case-execution time and deadline of a task and also the harmonicity of a task's period with respect to a task-set. Tasks are allocated to a given processor based on either minimum density or maximum harmonicity depending on which allocation results in a lower clock frequency. Assigning a task to the processor with lowest density results in balancing the density across processors while assigning task to the processor with maximum harmonicity attempts to maximize the utilization of the processor.

Network Multiple Antenna Transmission Employing An X2 Interface

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US Patent:
20100067604, Mar 18, 2010
Filed:
Sep 17, 2009
Appl. No.:
12/561990
Inventors:
Sandeep Bhadra - Addison TX, US
Ramanuja Vedantham - Dallas TX, US
Shantanu Kangude - Dallas TX, US
Eko N. Onggosanusi - Allen TX, US
Anand G. Dabak - Plano TX, US
Badri N. Varadarajan - Dallas TX, US
Runhua Chen - Dallas TX, US
Tarkesh Pande - Dallas TX, US
Assignee:
Texas Instruments Incorporated - Dallas TX
International Classification:
H04B 7/02
US Classification:
375267
Abstract:
A coordinated multipoint transmitter is for use with a multiple antenna super-cell and includes primary and secondary base stations jointly connected via an X2 interface link, wherein the primary base station provides a transmission directive corresponding to an X2 interface protocol over the X2 interface link to the secondary base station for a joint transmission from the primary and secondary base stations.
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Sandeep Bhadra from Addison, TX Get Report