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David R Camarillo, 75919 Oralia Dr, Albion, MI 49224

Known as:
David Robles Camarillo David L Camarillo David R Camarillojr Davi Camarillo David Camrillo Camarillo Davi
Related to:
Frank E Houser 87

David Camarillo Phones & Addresses

4919 Eaton Rapids Rd, Albion, MI 49224    517-8572816   

135 Green St, Springport, MI 49284   

Santa Cruz, CA   

Detroit, MI   

Work

Company: General motors 517 885 7799 Jun 2012 Position: Quality control inspector

Education

School / High School: springport high- Springport, MI 1984 Specialities: highschool diploma in general studies
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David Camarillo resumes & CV records

Resumes

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David Camarillo

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David Camarillo

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David Camarillo

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David Camarillo

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David Camarillo - Dayton, TN

Work:
General Motors 517 885 7799 Jun 2012 to 2000
Quality Control Inspector Bridgewater Interiors 517-322-4800 - Lansing, MI Nov 2006 to Jun 2012
Production Worker and trainer
Education:
springport high - Springport, MI 1984 to 1987
highschool diploma in general studies

Publications & IP owners

Us Patents

Method Of Sensing Forces On A Working Instrument

US Patent:
8388556, Mar 5, 2013
Filed:
Oct 3, 2011
Appl. No.:
13/251370
Inventors:
Daniel T. Wallace - Santa Cruz CA, US
Gregory J. Stahler - San Jose CA, US
Alex Goldenberg - San Francisco CA, US
Gene Reis - San Jose CA, US
Robert G. Younge - Portola Valley CA, US
Mathew Clopp - Santa Clara CA, US
David Camarillo - Aptos CA, US
Toby St. John King - Warsash, GB
Assignee:
Hansen Medical, Inc. - Mountain View CA
International Classification:
A61B 5/103
A61B 5/117
US Classification:
600587
Abstract:
A method for estimating the force on a distal end of a working catheter includes positioning a portion of a robotically controlled guide catheter and working catheter into a body lumen wherein a distal end of the working catheter projects distally from a distal end of the guide catheter. The working catheter and guide catheter are dithered with respect to one another using a dithering device operatively connected to a proximal portion of the working catheter. The coupling may occur directly to the working catheter or via a seal such as a Touhy seal. The force experienced by the working catheter at a proximal region is measured through at least one dithering cycle. The force at the distal end of the working catheter is then estimated based on the measured force at the proximal region. The estimated force may be displayed to a physician on, for example, a monitor.

Fiber Optic Instrument Sensing System

US Patent:
8460236, Jun 11, 2013
Filed:
Jun 24, 2010
Appl. No.:
12/822876
Inventors:
Matthew J. Roelle - Sunnyvale CA, US
Neal A. Tanner - Mountain View CA, US
Robert G. Younge - Portola Valley CA, US
Christopher Carlson - Menlo Park CA, US
Federico Barbagli - San Francisco CA, US
David Camarillo - San Francisco CA, US
Assignee:
Hansen Medical, Inc. - Mountain View CA
International Classification:
A61M 31/00
US Classification:
604 9501, 604523, 604528
Abstract:
Systems are described herein that improve control of a shapeable or steerable instrument using shape data. Additional systems use such shape data for improved mapping or adjusting models of the instrument. Such systems include robotic medical systems for controlling a shapeable instrument within an anatomical region having a controller, one or more actuators, and a localization system for guiding one or more shapeable instruments.

Methods And Devices For Controlling A Shapeable Medical Device

US Patent:
2011031, Dec 29, 2011
Filed:
Jun 24, 2010
Appl. No.:
12/823032
Inventors:
Matthew J. ROELLE - Sunnyvale CA, US
Neal A. TANNER - Mountain View CA, US
Robert G. YOUNGE - Portola Valley CA, US
Chris CARLSON - Menlo Park CA, US
Federico BARBAGLI - San Francisco CA, US
David CAMARILLO - San Francisco CA, US
Assignee:
Hansen Medical, Inc. - Mountain View CA
International Classification:
A61B 1/00
US Classification:
600118
Abstract:
Systems and methods are described herein that improve control of a shapeable or steerable instrument using shape data. Additional methods include preparing a robotic medical system for use with a shapeable instrument and controlling advancement of a shapeable medical device within an anatomic path. Also described herein are methods for altering a data model of an anatomical region.

Methods And Devices For Controlling A Shapeable Instrument

US Patent:
2011031, Dec 29, 2011
Filed:
Jun 24, 2010
Appl. No.:
12/823012
Inventors:
Matthew J. ROELLE - Sunnyvale CA, US
Neal A. TANNER - Mountain View CA, US
Robert G. YOUNGE - Portola Valley CA, US
Chris CARLSON - Menlo Park CA, US
Federico BARBAGLI - San Francisco CA, US
David CAMARILLO - San Francisco CA, US
Assignee:
Hansen Medical, Inc. - Mountain View CA
International Classification:
A61B 19/00
US Classification:
606130, 901 1
Abstract:
Systems and methods are described herein that improve control of a shapeable or steerable instrument using shape data. Additional methods include of controlling a shapeable instrument within an anatomical region using a robotic medical system.

Apparatus For Measuring Distal Forces On A Working Instrument

US Patent:
2012011, May 10, 2012
Filed:
Jan 9, 2012
Appl. No.:
13/345886
Inventors:
Daniel T. Wallace - Santa Cruz CA, US
Gregory Stahler - San Jose CA, US
Alex Goldenberg - San Francisco CA, US
Gene Reis - San Jose CA, US
Robert G. Younge - Portola Valley CA, US
Mathew Clopp - Santa Clara CA, US
David B. Camarillo - Aptos CA, US
Toby St. John King - Warsash, GB
Assignee:
HANSEN MEDICAL, INC. - Mountain View CA
International Classification:
A61B 5/00
US Classification:
600587
Abstract:
A robotic catheter manipulator includes a guide catheter including proximal and distal ends and lumen extending there through. A flexible bellows is secured at one end to the proximal end of the guide catheter and at the other end to a seal configured to receive a working catheter. In a loaded state, the working catheter is fixed relative to the seal. A ditherer is operatively connected to the seal for dithering the working catheter relative to the guide catheter when placed therein. The robotic catheter manipulator includes at least one force sensor for measuring the force applied to the working catheter by the ditherer. Force measurements may be translated into an estimated force that is experienced at the distal end of the working catheter which may then be displayed to the physician via a monitor or display.

Mechanical Biomarkers For Oocyte And Embryo Viability

US Patent:
2016010, Apr 21, 2016
Filed:
Oct 21, 2015
Appl. No.:
14/919445
Inventors:
- Palo Alto CA, US
David B. Camarillo - Aptos CA, US
Jinnuo Han - Mountain View CA, US
Renee A. Reijo Pera - Los Altos CA, US
Shawn L. Chavez - Fremont CA, US
Barry Behr - Palo Alto CA, US
Assignee:
The Board of Trustees of the Leland Stanford Junior University - Palo Alto CA
International Classification:
G01N 33/483
A61B 17/435
Abstract:
Provided are methods for the determination of the viability of a mammalian embryo or a potential embryo generated from a mammalian oocyte, comprising applying a mechanical stimulus to the embryo or oocyte, detecting a temporal response of the embryo or oocyte to the mechanical stimulus, and deriving measurements for one or more parameters from the temporal response, the measurements being indicative of viability. Also provided are methods for selecting an embryo for transfer and methods for enhancing the viability of an embryo or oocyte.

Device For Detecting On-Body Impacts

US Patent:
2014025, Sep 11, 2014
Filed:
Mar 6, 2014
Appl. No.:
14/199716
Inventors:
- Palo Alto CA, US
David B. Camarillo - Aptos CA, US
Lyndia Chun Wu - Stanford CA, US
International Classification:
A61B 5/00
A61B 5/03
A61B 5/1455
A61B 5/0205
A61B 5/11
A63B 71/08
US Classification:
600301, 600595, 600324
Abstract:
Provided is a device for placement on a human subject to detect impacts on the human subject. The device includes a base member, one or more engagement sensors to detect whether the device is properly placed on the human subject, and one or more motion sensors to detect the kinematics of the human subject. The device also includes a processing unit that includes methodology to detect false positives such as chewing, dropping, and throwing.

Model-Less Control For Flexible Manipulators

US Patent:
2014025, Sep 11, 2014
Filed:
Mar 5, 2014
Appl. No.:
14/197739
Inventors:
- Palo Alto CA, US
David B. Camarillo - Aptos CA, US
International Classification:
G05B 15/02
US Classification:
700275
Abstract:
A control method includes empirically constructing for a flexible manipulator an estimated mapping between an end-effector movement and a plurality of values representing movement of at least one actuator, measuring an actual end-effector movement and an actual movement of the at least one actuator, and, based on the measuring, updating the estimated mapping while the flexible manipulator is active such that the mapping is adapted to the present environment of the flexible manipulator.

Public records

Vehicle Records

David Camarillo

Address:
4919 Eaton Rpd Rd, Albion, MI 49224
VIN:
1GCSKSE32AZ192049
Make:
CHEVROLET
Model:
SILVERADO 1500
Year:
2010

Possible Relatives

Deborah J Camarillo  Daniel Camarillo  Danny Camarillo  Diana M Camarillo  Domingo Camarillo  Edgar Camarillo  Edna Y Camarillo  David Last  David W Johnson  David Stamps 

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