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Markus Johannes Osypka

from La Jolla, CA
Age ~62

Markus Osypka Phones & Addresses

  • 7463 Draper Ave, La Jolla, CA 92037 (858) 459-2312 (858) 459-2324
  • San Diego, CA
  • Julian, CA

Work

Company: Osypka medical Jan 2000 Position: President and chief executive officer

Skills

Sales • Leadership • Strategic Planning • Management

Languages

German

Industries

Medical Devices

Resumes

Resumes

Markus Osypka Photo 1

President And Chief Executive Officer

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Location:
7463 Draper Ave, La Jolla, CA 92037
Industry:
Medical Devices
Work:
Osypka Medical
President and Chief Executive Officer
Skills:
Sales
Leadership
Strategic Planning
Management
Languages:
German

Business Records

Name / Title
Company / Classification
Phones & Addresses
Markus J. Osypka
President
Osypka Medical Inc
Mechanical or Industrial Engineering · Ret Misc Merchandise
7855 Ivanhoe Ave #226, La Jolla, CA 92037
7463 Draper Ave, La Jolla, CA 92037
(858) 454-0021
Markus J. Osypka
President
CARDIOTRONIC, INC
Mfg Electromedical Equipment
7855 Ivanhoe Ave SUITE 226, La Jolla, CA 92037
Markus Osypka
Vice President
CardioDynamics International Corporation
Hospital & Health Care · Mfg Electromedical Equipment Mfg Surgical/Medical Instruments · Surgical and Medical Instruments
6175 Nancy Rdg Dr, San Diego, CA 92121
(858) 535-0202

Publications

Us Patents

Method And Apparatus For Digital Demodulation And Further Processing Of Signals Obtained In The Measurement Of Electrical Bioimpedance Or Bioadmittance In An Object

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US Patent:
20070043303, Feb 22, 2007
Filed:
Aug 17, 2006
Appl. No.:
11/506369
Inventors:
Markus Osypka - La Jolla CA, US
Eberhard Gersing - Gottingen, DE
International Classification:
A61B 5/05
US Classification:
600547000
Abstract:
Methods and apparatus for digital demodulation of signals obtained in the measurement of electrical bioimpedance or bioadmittance of an object. One example comprises: generating an excitation signal of known frequency content; applying the excitation signal to the object; sensing a response signal of the object; sampling and digitizing the response signal to acquire a digitized response signal representing the response signal with respect to frequency content, amplitude and phase; correlating, for each frequency fof the excitation signal applied, digitized samples of the response signal, with discrete values representing the excitation signal; calculating, using the correlated signals for each frequency fof the excitation signal applied, complex values for the bioimpedance Z(f); providing, over time, a set of digital bioimpedance waveforms Z(f,t)); separating the base bioimpedance Z(f), from the waveforms; and separating the changes of bioimpedance ΔZ(f,t), from the waveforms.
Markus Johannes Osypka from La Jolla, CA, age ~62 Get Report