MICHAEL ARTHUR MEYER
Pilots at 22 Pl, Phoenix, AZ
License number
Arizona A1284179
Issued Date
Jan 2017
Expiration Date
Jan 2019
Category
Airmen
Type
Authorized Aircraft Instructor
Address
Address
7611 N 22Nd Pl, Phoenix, AZ 85020
Professional information
Project Manager At Solid Concepts Inc.
Location:
Phoenix, Arizona Area
Industry:
Program Development
Work:
Zimmer Surgical
Feb 2010 - Feb 2011
-
Manufacturing Quality Engineer/Contract
HJ Heinz
May 2008 - Apr 2009
-
Production Superintendent
The Hoover Company
Jan 1981 - Oct 2007
-
Director/New Product Development
Education:
The University of Akron 1975 - 1980
BS, Business Administration CCHS
BS, Business Administration CCHS
Interests:
golf
Server At P.f. Chang's China Bistro
Position:
Server at P.F. Chang's China Bistro
Location:
Phoenix, Arizona Area
Industry:
Restaurants
Work:
P.F. Chang's China Bistro
-
Server
Michael Meyer
Location:
Phoenix, Arizona
Industry:
Biotechnology
Functional Imaging Of Cells With Optical Projection Tomography
US Patent:
2012010, May 3, 2012
Filed:
Jun 8, 2009
Appl. No.:
12/999515
Inventors:
Michael G. Meyer - Phoenix AZ, US
J. Richard Rahn - Sammamish WA, US
Anna V. Tourovskaia - Mountlake Terrace WA, US
Julia Oi Yan Yu - Santa Clara CA, US
Christy A. Lancaster - Seattle WA, US
Thomas Neumann - Seattle WA, US
Mark E. Fauver - Seattle WA, US
J. Richard Rahn - Sammamish WA, US
Anna V. Tourovskaia - Mountlake Terrace WA, US
Julia Oi Yan Yu - Santa Clara CA, US
Christy A. Lancaster - Seattle WA, US
Thomas Neumann - Seattle WA, US
Mark E. Fauver - Seattle WA, US
International Classification:
H04N 13/02
US Classification:
348 50, 348E13074
Abstract:
A method for 3D imaging of a biologic object () in an optical tomography system where a subcellular structure of a biological object () is labeled by introducing at least one nanoparticle-biomarker. The labeled biological object () is moved relatively to a microscope objective () to present varying angles of view and the labeled biological object () is illuminated with radiation having wavelengths between 150 nm and 900 nm. Radiation transmitted through the labeled biological object () and the microscope objective () within at least one wavelength bands is sensed with a color camera, or with a set of at least four monochrome cameras. A plurality of cross-sectional images of the biological object () from the sensed radiation is formed and reconstructed to make a 3D image of the labeled biological object ().