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Karthik Kappaganthu Phones & Addresses

  • Fremont, CA
  • Bloomington, IN

Resumes

Resumes

Karthik Kappaganthu Photo 1

Machine Learning And Ai

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Location:
34337 Portia Ter, Fremont, CA 94555
Industry:
Health, Wellness And Fitness
Work:
Cummins Inc. - Columbus, In since Jan 2011
Sr. Controls and Diagnostics Research Engineer

Global Strategic Solutions Jan 2010 - Dec 2010
Research Engineer

Villanova University Aug 2006 - Mar 2010
Reseach Assistant
Education:
Indiana University - Kelley School of Business 2011 - 2013
Master of Business Administration (MBA), Strategy, Innovation Management and Entrepreneurship
Villanova University 2006 - 2009
PhD, Engineering, Machinery Diagnostics & Prognostics, Dynamcis & Control, Pattern Classification
Villanova University 2004 - 2006
M S, Mechanical Engineering, Dynamics & Control, Robotics
Skills:
Matlab
Simulations
Simulink
Robotics
Algorithms
Engineering
Labview
Ai
Machine Learning
Strategy
Systems Engineering
Optimization
Analysis
R&D
Mechanical Engineering
Research and Development
Modeling
Engineering Management
Management Consulting
Sensors
Streaming Analytics
Innovation
Deep Learning
Control Theory
Computational Intelligence
Prognostics
Dspace
Internal Combustion Engines
Diagnose
Interests:
Dynamics and Controls
Innovation
Research
Consulting
Machine Learning
Strategy
Languages:
Hindi
Telugu
Karthik Kappaganthu Photo 2

Karthik Kappaganthu

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Publications

Us Patents

Determining Interventions For Remote Health Services

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US Patent:
20200388393, Dec 10, 2020
Filed:
Feb 25, 2020
Appl. No.:
16/800144
Inventors:
- Mountain View CA, US
Tamer Fakhouri - Millbrae CA, US
Karthik Kappaganthu - Fremont CA, US
Amar Kendale - Sunnyvale CA, US
Alicia Nathalie Schep - El Cerrito CA, US
Bimal Shah - Durham NC, US
Emma Townley-Smith - Menlo Park CA, US
Assignee:
Livongo Health, Inc. - Mountain View CA
International Classification:
G16H 50/20
G16H 40/67
G16H 40/63
G16H 10/60
G16H 50/70
G16H 50/30
G16H 15/00
G06N 20/00
Abstract:
Remote health services may be provided, for example, in real time, based on values of health metrics monitored remotely, and in some embodiments, continuously, for a recipient. The system may include a mobile health device configured to continually monitor or intermittently detect values of one or more health metrics. A mobile health device may be locally coupled to a recipient, and may include a health sensor that detects values of one or more health metrics of the recipient. Servers may be remotely coupled to the mobile health device and provide one or more health services based at least in part on health metric values detected by the health device. Providing the services may include determining health communication characteristics, and sending health communications from one or more servers to the mobile health device according to determined health communication characteristics.

Managing Intervention Characteristics For Remote Health Services

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US Patent:
20200388403, Dec 10, 2020
Filed:
Feb 25, 2020
Appl. No.:
16/799978
Inventors:
- Mountain View CA, US
David Engberg - San Francisco CA, US
Karthik Kappaganthu - Fremont CA, US
Amar Kendale - Sunnyvale CA, US
Alicia Nathalie Schep - El Cerrito CA, US
Emma Townley-Smith - Menlo Park CA, US
Assignee:
Livongo Health, Inc. - Mountain View CA
International Classification:
G16H 80/00
G16H 10/60
G16H 40/67
G16H 70/20
G16H 20/00
G16H 50/30
G06N 20/00
G06N 5/04
Abstract:
Remotely providing a health service to a person includes predefining a plurality of analysis types, predefining a rule specifying a condition under which to apply the plurality of analysis types, performing the health service on the person, selecting the analysis type to perform based on the rule and information about the person, performing a type of analysis on the information to determine what interventions to be undertaken based on the information as part of performing the health service, and remotely communicating a determined intervention to the person. Each analysis type represents a type of analysis to be performed on information about the person to determine an intervention as part of providing a health service. The intervention may include altering a health treatment administered to the person as part of the health service. The analysis type may be autonomous based on machine learning and/or based on predefined rules.

Systems And Methods For Controlling Egr Flow During Transient Conditions

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US Patent:
20190249613, Aug 15, 2019
Filed:
Jan 7, 2019
Appl. No.:
16/241443
Inventors:
- Columbus IN, US
David J. Stroh - Columbus IN, US
Samuel C. Geckler - Columbus IN, US
Marten H. Dane - Columbus IN, US
Anthony Kyle Perfetto - Columbus IN, US
Karthik Kappaganthu - Bloomington IN, US
Govindarajan Kothandaraman - Columbus IN, US
International Classification:
F02D 41/00
F02D 13/02
F02M 26/05
F02B 37/18
F02B 37/24
F02M 26/37
F02M 26/13
F02M 26/43
F02M 26/06
F02P 5/15
Abstract:
Systems, apparatus, and methods are disclosed that include a divided exhaust engine with at least one primary EGR cylinder and a plurality of non-primary EGR cylinders. The systems, apparatus and methods control the amount of recirculated exhaust gas in a charge flow in response to EGR fraction deviation conditions.

Dual Coil Ignition System

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US Patent:
20160348634, Dec 1, 2016
Filed:
Aug 15, 2016
Appl. No.:
15/236545
Inventors:
- Columbus IN, US
Karthik Kappaganthu - Bloomington IN, US
Benjamin L. Olivas - Columbus IN, US
Douglas L. Sprunger - Columbus IN, US
David Stroh - Columbus IN, US
Assignee:
Cummins, Inc. - Columbus IN
International Classification:
F02P 11/02
F02P 17/12
F02P 5/15
F02P 9/00
F02P 3/045
Abstract:
A method of responding to a detected blowout in a coil ignition system is provided in this disclosure. The method includes receiving a characteristic regarding operation of a coil ignition system; determining a blowout condition exists for the coil ignition system based on the characteristic; and providing a command to the coil ignition system based on the determination that the blowout condition exists, wherein the command is structured to reduce a residual charge amount in the coil ignition system.

Systems And Methods For Controlling Egr Flow During Transient Conditions

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US Patent:
20160237928, Aug 18, 2016
Filed:
Apr 26, 2016
Appl. No.:
15/138892
Inventors:
- Columbus IN, US
David J. Stroh - Columbus IN, US
Samuel C. Geckler - Columbus IN, US
Marten H. Dane - Columbus IN, US
Anthony K. Perfetto - Columbus IN, US
Karthik Kappaganthu - Bloomington IN, US
Govindarajan Kothandaraman - Columbus IN, US
International Classification:
F02D 41/00
F02B 37/18
F02B 37/24
F02M 26/05
F02M 26/43
F02P 5/15
F02M 26/06
F02D 13/02
F02M 26/37
Abstract:
Systems, apparatus, and methods are disclosed that include a divided exhaust engine with at least one primary EGR cylinder and a plurality of non-primary EGR cylinders. The systems, apparatus and methods control the amount of recirculated exhaust gas in a charge flow in response to EGR fraction deviation conditions.

Method Of Spark Timing Adjustment For An Internal Combustion Engine

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US Patent:
20160169186, Jun 16, 2016
Filed:
Dec 10, 2014
Appl. No.:
14/565882
Inventors:
- Columbus IN, US
Govindarajan Kothandaraman - Columbus IN, US
Carlos Alcides Lana - Columbus IN, US
Karthik Kappaganthu - Bloomington IN, US
International Classification:
F02P 5/15
F02P 9/00
Abstract:
Systems and methods are disclosed for adjusting the spark timing of an internal combustion engine. According to at least one aspect of the present disclosure, the system includes an exhaust gas recirculation (EGR) system for recirculating exhaust gas flow from at least one primary EGR cylinder of an engine into an intake system prior to combustion. According to at least one other aspect of the present disclosure, the method includes estimating a dynamic EGR fraction of exhaust gas directed into the intake system via the EGR system, estimating a steady-state EGR fraction of exhaust gas directed into the intake system at the changed mass air flow rate, computing a difference between the dynamic fraction and steady-state fraction to determine a change in EGR fraction, and applying a gain factor to the change in EGR fraction to determine a desired spark timing adjustment.

Control Of Internal Combustion Engines In Response To Exhaust Gas Recirculation System Conditions

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US Patent:
20150176513, Jun 25, 2015
Filed:
Dec 22, 2014
Appl. No.:
14/578912
Inventors:
- Columbus IN, US
David J. Stroh - Columbus IN, US
Samuel C. Geckler - Columbus IN, US
Marten H. Dane - Columbus IN, US
Anthony Kyle Perfetto - Columbus IN, US
Karthik Kappaganthu - Bloomington IN, US
Govindarajan Kothandaraman - Columbus IN, US
International Classification:
F02D 41/14
F02D 41/00
F02P 5/04
F02M 25/07
Abstract:
A system includes an internal combustion engine having a number of cylinders, with at least one of the cylinder(s) being a primary EGR cylinder that is dedicated to provided EGR flow during at least some operating conditions. A controller is structured to control combustion conditions in the cylinders in response to one or more operating conditions associated with the engine.

Dual Coil Ignition System

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US Patent:
20150152832, Jun 4, 2015
Filed:
Dec 2, 2014
Appl. No.:
14/558261
Inventors:
- Columbus IN, US
Karthik Kappaganthu - Bloomington IN, US
Benjamin L. Olivas - Columbus IN, US
Douglas L. Sprunger - Columbus IN, US
David Stroh - Columbus IN, US
Assignee:
CUMMINS, INC. - Columbus IN
International Classification:
F02P 9/00
F02P 3/05
H01T 13/00
F02P 17/12
Abstract:
A method of responding to a detected blowout in a coil ignition system is provided in this disclosure. The method includes receiving a characteristic regarding operation of a coil ignition system; determining a blowout condition exists for the coil ignition system based on the characteristic; and providing a command to the coil ignition system based on the determination that the blowout condition exists, wherein the command is structured to reduce a residual charge amount in the coil ignition system.
Karthik J Kappaganthu from Fremont, CA, age ~42 Get Report