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Ansuya Negi

from Hillsboro, OR
Age ~55
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Related to:
Shivani Negi, 29Singh Negi Jeewan, 58
Connected to:
Aniket Negi, 37Ankur Negi, 38Arjun S Negi, 40Kajal Negi, 47Kanika Negi, 39Rajat S Negi, 44Rajeev Negi, 34Ravi Negi, 46Satyarth Negi, 41Saurabh Negi, 39

Ansuya Negi Phones & Addresses

  • 20780 Rosemount St, Beaverton, OR 97007
  • 9365 146Th Ter, Beaverton, OR 97007
  • Hillsboro, OR
  • Rockaway Beach, OR
  • Bend, OR
  • Redmond, OR

Work

Company: Intel corporation Mar 2018 Position: Engineering manager

Education

School / High School: University of Roorkie

Skills

Debugging • Soc • Device Drivers • Firmware • Embedded Software • Linux

Industries

Computer Hardware

Resumes

Resumes

Ansuya Negi Photo 1

Engineering Manager

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Location:
Portland, OR
Industry:
Computer Hardware
Work:
Intel Corporation
Engineering Manager
Education:
University of Roorkie
Oregon State University
Master of Science, Masters, Computer Science Portland State University
Doctorates, Doctor of Philosophy, Computer Science
Skills:
Debugging
Soc
Device Drivers
Firmware
Embedded Software
Linux

Publications

Us Patents

Distributed Software-Defined Industrial Systems

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US Patent:
20200310394, Oct 1, 2020
Filed:
Sep 28, 2018
Appl. No.:
16/650454
Inventors:
- Santa Clara CA, US
Jonh Vicente - Roseville CA, US
Kirk Smith - Chandler AZ, US
Robert Chavez - Phoenix AZ, US
Mark Yarvis - Portland OR, US
Steven M. Brown - Chandler AZ, US
Jeremy Ouilette - Chandler AZ, US
Roderick E. Kronschnabel - Chandler AZ, US
Matthew J. Schneider - Chandler AZ, US
Chris D. Lucero - Chandler AZ, US
Atul N. Hatalkar - Chandler AZ, US
Sharad Garg - Portland OR, US
Casey Rathbone - Banks OR, US
Aaron R. Berck - Hillsboro OR, US
Xubo Zhang - Fremont CA, US
Ron Kuruvilla Thomas - San Jose CA, US
Mandeep Shetty - Chandler AZ, US
Ansuya Negi - Beaverton OR, US
Assignee:
Intel Corporation - Santa Clara CA
International Classification:
G05B 19/418
G06F 8/65
G06F 11/20
Abstract:
Various systems and methods for implementing a software defined industrial system are described herein. For example, an orchestrated system of distributed nodes may run an application, including modules implemented on the distributed nodes. In response to a node failing, a module may be redeployed to a replacement node. In an example, self-descriptive control applications and software modules are provided in the context of orchestratable distributed systems. The self-descriptive control applications may be executed by an orchestrator or like control device and use a module manifest to generate a control system application. For example, an edge control node of the industrial system may include a system on a chip including a microcontroller (MCU) to convert IO data. The system on a chip includes a central processing unit (CPU) in an initial inactive state, which may be changed to an activated state in response an activation signal.

Self-Descriptive Orchestratable Modules In Software-Defined Industrial Systems

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US Patent:
20190041830, Feb 7, 2019
Filed:
Sep 28, 2018
Appl. No.:
16/147190
Inventors:
- Santa Clara CA, US
Rita H. Wouhaybi - Portland OR, US
Ron Kuruvilla Thomas - San Jose CA, US
Casey Rathbone - Banks OR, US
Aaron R. Berck - Hillsboro OR, US
Sharad Garg - Portland OR, US
Robert Chavez - Phoenix AZ, US
Kirk Smith - Chandler AZ, US
Mandeep Shetty - Chandler AZ, US
Xubo Zhang - Fremont CA, US
Ansuya Negi - Beaverton OR, US
International Classification:
G05B 19/418
Abstract:
Various systems and methods are provided for implementing a software defined industrial system. In an example, self-descriptive control applications and software modules are provided in the context of orchestratable distributed systems. The self-descriptive control applications may be executed by an orchestrator or like control device, configured to: identify available software modules adapted to perform functional operations in a control system environment; identify operational characteristics that identify characteristics of execution of the available software modules that are available to implement a control system application; select a software module for execution based on the operational configuration and the operational characteristics identified in the manifest; and cause the execution of the selected software module in the control system environment based on an application specification for the control system application.

System, Apparatus And Method For Providing Locality Assertion Between A Security Processor And An Enclave

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US Patent:
20180285560, Oct 4, 2018
Filed:
Mar 31, 2017
Appl. No.:
15/475239
Inventors:
Ansuya Negi - Hillsboro OR, US
Ravi L. Sahita - Portland OR, US
International Classification:
G06F 21/53
Abstract:
In one embodiment, a system includes a processor having one or more cores and a security processor coupled to the processor. The security processor may be configured to execute in a trusted execution environment, where the security processor includes a local attestation circuit to validate an enclave stored in a protected region of a system memory as a trusted agent, based at least in part on an identifier of the enclave stored in a whitelist. Other embodiments are described and claimed.

Technologies For Altering Modem Configurations

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US Patent:
20180287869, Oct 4, 2018
Filed:
Mar 29, 2017
Appl. No.:
15/473370
Inventors:
- Santa Clara CA, US
Rajesh Poornachandran - Portland OR, US
Rita H. Wouhaybi - Portland OR, US
Ansuya Negi - Hillsboro OR, US
International Classification:
H04L 12/24
H04L 29/08
H04L 12/26
H04W 12/08
H04W 12/06
Abstract:
Methods, systems, and storage media are described for configuring a reconfigurable modem circuitry to communicate in accordance with various wireless communications protocols. A modem manager may be implemented in a secure execution environment of a computing platform. The modem manager may detect a trigger to reconfigure the modem circuitry, select a modem profile in response to the trigger, and reconfigure the modem circuitry in accordance with the selected modem profile. The modem circuitry, on reconfiguration, may communicate over a corresponding wireless network or in a corresponding network of the selected modem profile. Other embodiments may be described and/or claimed.

Predictive Transportation System Modeling

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US Patent:
20170176198, Jun 22, 2017
Filed:
Dec 22, 2015
Appl. No.:
14/978972
Inventors:
- Santa Clara CA, US
RITA A. WOUHAYBI - Portland OR, US
ANSUYA NEGI - Beaverton OR, US
Assignee:
Intel Corporation - Santa Clara CA
International Classification:
G01C 21/34
G01C 21/36
G01S 19/42
Abstract:
A plurality of vehicles may each include one or more biometric sensors capable of measuring at least one physiological factor and/or at least one psychological factor logically associated with at least one occupant of each vehicle. Each of the plurality of vehicles may also include at least one vehicular sensor to measure at least one vehicular factor and/or at least one ambient environmental sensor to measure at least one ambient environmental factor. A route guidance state machine receives the data indicative of the at least one physiological factor, at least one psychological factor, at least one vehicular factor, and/or at least one ambient environmental factor and determines a route for a first vehicle that minimizes the likelihood of contact with others in the plurality of vehicles exhibiting one or more unsafe actions.

Facial Liveness Detection In Image Biometrics

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US Patent:
20160335483, Nov 17, 2016
Filed:
Mar 27, 2015
Appl. No.:
14/779540
Inventors:
- Santa Clara CA, US
David L. Graumann - Portland OR, US
Rahuldeva Ghosh - Portland OR, US
Ansuya Negi - Beaverton OR, US
Ranjit S Narjala - Portland OR, US
International Classification:
G06K 9/00
H04W 12/06
H04L 29/06
Abstract:
System and techniques for spoofing detection in image biometrics are described herein. A sequence of images may be obtained from a camera; a first plurality of images in the sequence of images including a representation of a user body part, and a second plurality of images in the sequence of images including a representation of an environment of the user. A marker may be created for the representation of the body part. A feature of the environment of the user present during the second plurality of images may be identified in the sequence of images using a third group of circuits. A correlation between the marker and the feature of the environment in the sequence of images may be quantified to produce a synchronicity metric of the degree to which the marker and the feature of the environment correlate.

Liveness Detection Using Progressive Eyelid Tracking

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US Patent:
20160140390, May 19, 2016
Filed:
Jun 24, 2015
Appl. No.:
14/749193
Inventors:
- Santa Clara CA, US
Ansuya Negi - Beaverton OR, US
International Classification:
G06K 9/00
G06T 7/00
H04N 5/225
G06T 7/20
G06K 9/52
H04N 5/33
Abstract:
Techniques for liveness detection using progressive eyelid tracking are disclosed. A series of frames of a user are captured by a camera. The user's face, including a pair of eyes and eyelids, are detected within each of a plurality of captured frames. A respective pair of regions of interest is extracted from each captured frame within the plurality of respective captured frames, each respective region of interest including a respective eye of the respective pair of eyes detected and a respective eyelid corresponding to the respective eye. A respective score corresponding to a percentage of the respective eye unobstructed by the respective eyelid is calculated for each region of interest. A liveness indication is generated by a pattern recognizer analyzing the series of respective pairs of scores for an abnormal eyelid movement sequence.

System, Devices, And Methods For Proximity-Based Parental Controls

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US Patent:
20140096180, Apr 3, 2014
Filed:
Sep 28, 2012
Appl. No.:
13/631449
Inventors:
Ansuya Negi - Beaverton OR, US
Erik J. Johnson - Portland OR, US
International Classification:
G06F 21/00
US Classification:
726 1, 726 4
Abstract:
Systems, devices, and methods for proximity-based parental controls include a dominant computing device and a subordinate computing device configured to pair and establish a shared secret. Later, upon determining that the dominant computing device and the subordinate computing device are in proximity, the dominant computing device authenticates the subordinate computing device using the shared secret and authorizes access to an application on the subordinate computing device. The dominant computing device may configure an access control policy associated with the application. The access control policy may define allowed usage time, allowed usage time of day, allowed content, and/or other parameters. The subordinate computing device may enforce the access control policy. The application on the subordinate computing device may be a user interface shell, a game, a web browser, a particular web site, or other application. Other embodiments are described and claimed.
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Ansuya Negi from Hillsboro, OR, age ~55 Get Report