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Christopher Paetsch

from Jamaica Plain, MA
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Related to:
Patricia D Radigan, 76Eric R Radigan, 55Ronald E Radigan, 77Aaron Scott Radigan, 51Renee Cowger, 44Venessa J Cowger, 41Joshua Cowger, 34Gerald Kellar, 63
Connected to:
Christopher R Paetsch, 44Claudia J Paetsch, 60George E Paetsch, 89Hans J Paetsch, 77Dawn R Paetz, 66Megan M Paetz, 36Kristi L Paetzel, 51Richard E Paetzke, 92William D Paetzke, 71Teresa A Paetznick, 57

Christopher Paetsch Phones & Addresses

  • 32 Parkton Rd APT 1, Jamaica Plain, MA 02130

Work

Company: Tufts university school of engineering Sep 2010 Position: Graduate teaching assistant

Education

School / High School: Tufts University- Medford, MA Jan 2009 Specialities: Ph.D. (expected) in Structural Engineering and Mechanics

Skills

Abaqus • Hypermesh • Matlab • Fortran • MSC ADAMS • Mathcad • VBA • Mathematica • AutoCAD • Pro/E • Solidworks • VI/VIM • Latex • MS Office

Resumes

Resumes

Christopher Paetsch Photo 1

Christopher Paetsch Cambridge, MA

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Work:
Tufts University School of Engineering

Sep 2010 to Present
Graduate Teaching Assistant
NOVATIO Engineering
Boston, MA
Jan 2010 to Sep 2011
Contract Analysis Engineer
Tufts University Advanced Technology Lab
Medford, MA
Jan 2009 to Sep 2010
Graduate Research Assistant
Mechanical Systems Group, TIAX, LLC
Cambridge, MA
Mar 2008 to Nov 2009
Senior Technologist
Analysis Group, TIAX, LLC
Cambridge, MA
Mar 2007 to Mar 2008
Technologist
TIAX, LLC
Cambridge, MA
Jan 2006 to Mar 2007
Associate Technologist
Education:
Tufts University
Medford, MA
Jan 2009 to Jan 2012
Ph.D. (expected) in Structural Engineering and Mechanics
Tufts University
Medford, MA
2003 to 2005
M.S. in Mechanical Engineering
Santa Clara University
Santa Clara, CA
Jan 1999 to Jan 2003
B.S. in Mechanical Engineering
Skills:
Abaqus, Hypermesh, Matlab, Fortran, MSC ADAMS, Mathcad, VBA, Mathematica, AutoCAD, Pro/E, Solidworks, VI/VIM, Latex, MS Office

Publications

Us Patents

Non-Linear Breath Entrainment

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US Patent:
20200215383, Jul 9, 2020
Filed:
Jan 6, 2020
Appl. No.:
16/735057
Inventors:
- Framingham MA, US
David Rolland CRIST - Watertown MA, US
Christopher R. PAETSCH - Cambridge MA, US
Joseph ROSSI - Jamaica Plain MA, US
Sara ADKINS - Allston MA, US
Chia-Ling LI - Framingham MA, US
Navaneethan SIVAGNANASUNDARAM - Waltham MA, US
Kathleen Elizabeth KREMER - Southborough MA, US
Alexander de Raadt St James - Revere MA, US
Jeffrey MILLER - North Reading MA, US
Connor ROG - Cumberland ME, US
Stephen A. MCDONALD - Northborough MA, US
Paul NADDAFF - Newton MA, US
John Andrew TROTTER - Sudbury MA, US
Victoria A. GRACE - Framingham MA, US
International Classification:
A63B 23/02
A61B 5/08
A61B 5/00
G09B 19/00
Abstract:
Aspects of the present disclosure provide methods, apparatuses, and systems for non-linear breathing entrainment. As described herein, “breathing entrainment” refers to guiding a user's breath or breathing. According to an aspect, an initial breathing period and a final breathing period are selected. Based on the initial and final breathing periods, a non-linear breath rate per minute sequence is determined. A guiding stimulus is output and aligned with the non-linear breath rate per minute sequence. The guiding stimulus is non-linearly altered with the non-linear breath rate per minute sequence to align with the final breathing period over an interval of time. The non-linear alterations of the guiding stimulus vary based on an amount of time the guiding stimulus has been output.

Earpiece Tip And Related Earpiece

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US Patent:
20200077173, Mar 5, 2020
Filed:
Aug 31, 2018
Appl. No.:
16/118727
Inventors:
- Framingham MA, US
Christopher Paetsch - Boston MA, US
International Classification:
H04R 1/10
Abstract:
Various implementations include an eartip for an earphone earpiece. The eartip can be configured to reliably fit a plurality of ear shapes. The eartip can have a body and a sealing structure defined by a set of dimensions that are configured to seal the ear canal of one or more users. In certain implementations, a notch in the body permits flexion of the body during coupling or decoupling of the body from the mount and provides sufficient hoop stress around the mount to retain the eartip on the mount during use of the earphone earpiece.

In-Ear Electrical Potential Sensor

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US Patent:
20190053756, Feb 21, 2019
Filed:
Aug 18, 2017
Appl. No.:
15/680695
Inventors:
- Framingham MA, US
Lifun LIN - Lincoln MA, US
Romain KIRSZENBLAT - Allston MA, US
Mikhail IOFFE - Newton MA, US
Dale MCELHONE - Marlborough MA, US
Christopher R. PAETSCH - Cambridge MA, US
Jack E. READ - Marlborough MA, US
Andrew FARRELL - Boston MA, US
International Classification:
A61B 5/00
A61B 5/0492
A61B 5/0496
A61B 5/0478
H04R 1/10
Abstract:
Aspects of the present disclosure provide an audio product for obtaining biologically-relevant information associated with a user comprising. The audio product includes at least two electrodes, a processor, and an electroacoustic transducer coupled to the processor. The processor is configured to receive at least one signal affected by an action of the user obtained via the first electrode or the second electrode and take one or more actions based on the at least one signal. The at least one action may control another device, in an effort to provide hands-free control of the other device.

Active Unipolar Dry Electrode Open Ear Wireless Headset And Brain Computer Interface

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US Patent:
20180353128, Dec 13, 2018
Filed:
Jun 9, 2017
Appl. No.:
15/618388
Inventors:
- Framingham MA, US
Christopher R. PAETSCH - Cambridge MA, US
Tegan M. AYERS - Waltham MA, US
Jack E. READ - Marlborough MA, US
International Classification:
A61B 5/00
A61B 5/16
A61B 5/11
A61B 5/0408
A61B 5/0478
A61B 5/0482
A61B 5/0492
A61B 5/0496
Abstract:
Aspects of the present disclosure provide a wearable audio product for obtaining biologically-relevant information associated with a user comprising. The audio product comprises a first electrode placed over the user's auditory cortex on a first side of the user's body, a second electrode placed on the first side of the user's body, a first reference electrode placed on the first side of the user's body, a processor coupled to the first, second, and first reference electrode, the processor configured to take one or more actions based on signals received from the first, second, and first reference electrodes, and an electroacoustic transducer coupled to the processor. Any or all of the electrodes described herein may include any integer number of electrodes clustered in the specified location.
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Christopher Paetsch from Jamaica Plain, MA Get Report