IPRPI & RPI Logos Inverse Problems Center

Upcoming Seminars

Past Seminars
  Spring 2013
  Fall 2012
  Spring 2012

Archives
Spring 2011
Summer 2010
Spring 2010
Fall 2009
Spring 2009
Fall 2008
Spring 2008
Fall 2007
Spring 2007
Spring 2006
Fall 2005
Spring 2005
Fall 2004
Spring 2004
Spring 2003
Spring 2002

Spring 2005 Schedule

Tuesday, May 3, 2005
Inverse Problems Seminar
Speaker: Birsen Yazici, Department of Electrical, Computer and Systems Engineering Rensselaer Polytechnic Institute
Title: Harmonic analysis in radar and medical imaging
Location: Amos Eaton 411
Time: 12:00 - 1:00 pm

This talk will present the application of Fourier analysis on groups for range-Doppler imaging in radar and transmission and emission tomography in medical imaging. In the case of radar imaging, the approach provides a framework where both range-Doppler imaging and waveform design problems can be simultaneously addressed. In the case of medical imaging, it leads to new Fourier type inversion methods for the reconstructive integral transforms of emission tomography.


Tuesday, March 22, 2005
Inverse Problems Seminar
Speaker: Jens Klein, RPI, Department of Mathematical Sciences
Title: Problems in Synthetic Aperture Radar
Location: Amos Eaton 411
Time: 12:00 - 1:00 pm


Tuesday, March 8, 2005
Inverse Problems Seminar
Speaker: Rob McCaffrey, RPI, Department of Earth and Environmental Sciences
Title: Block model of western US kinematics from inversion of geodetic, fault slip, and earthquake data
Location: Amos Eaton 411
Time: 12:00 - 1:00 pm


Tuesday, March 1, 2005
Inverse Problems Seminar
Speaker: Jeong-Rock Yoon, RPI, Department of Mathematical Sciences
Title: Transient elastography in anisotropic media to distinguish malignancy of tumor
Location: Amos Eaton 411
Time: 12:00 - 1:00 pm

February 23, 2005
Inverse Problems Seminar
Speaker: Rob McCaffrey, RPI, Department of Earth and Environmental Sciences
Title:Block model of western US kinematics from inversion of geodetic, Fault slip, and earthquake data
Location: Amos Eaton 411
Time: 12:00 - 1:00 pm

 

 

 

Back to Top