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Michael A Gennert

Showing results (1-10 of 8) with videos related to

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Human Factors|March 11, 2020
Force Anticipation and Its Potential Implications on Feedforward and Feedback Human Motor ControlHideyuki Kimpara, Kenechukwu C Mbanisi, Zhi Li, et al.
IEEE Transactions on Medical Imaging|July 11, 2006
Use of three-dimensional Gaussian interpolation in the projector/backprojector pair of iterative reconstruction for compensation of known rigid-body motion in SPECTBing Feng, Howard C Gifford, Richard D Beach, et al.
IEEE Transactions on Nuclear Science|March 26, 2010
Body Deformation Correction for SPECT ImagingSongxiang Gu, Joseph E McNamara, Joyeeta Mitra, et al.
IEEE Transactions on Nuclear Science|December 17, 2008
An Assessment of a Low-Cost Visual Tracking System (VTS) to Detect and Compensate for Patient Motion during SPECTJoseph E McNamara, Philippe Bruyant, Karen Johnson, et al.
Medical Physics|June 24, 2009
A flexible multicamera visual-tracking system for detecting and correcting motion-induced artifacts in cardiac SPECT slicesJoseph E McNamara, P Hendrik Pretorius, Karen Johnson, et al.
IEEE Transactions on Nuclear Science|December 17, 2008
A Robust Visual Tracking System for Patient Motion Detection in SPECT: Hardware SolutionsPhilippe P Bruyant, Michael A Gennert, Glen C Speckert, et al.
IEEE Transactions on Nuclear Science|December 17, 2008
An Adaptive Approach to Decomposing Patient-Motion Tracking Data Acquired During Cardiac SPECT ImagingRichard D Beach, Hans Depold, Guido Boening, et al.
IEEE Transactions on Nuclear Science|December 17, 2008
Feasibility of Stereo-Infrared Tracking to Monitor Patient Motion During Cardiac SPECT ImagingRichard D Beach, P Hendrik Pretorius, Guido Boening, et al.
Pageof 1

Showing results (1-10 of 8) with videos related to

Sort By:
Pageof 1
Human Factors|March 11, 2020
Force Anticipation and Its Potential Implications on Feedforward and Feedback Human Motor ControlHideyuki Kimpara, Kenechukwu C Mbanisi, Zhi Li, et al.
IEEE Transactions on Medical Imaging|July 11, 2006
Use of three-dimensional Gaussian interpolation in the projector/backprojector pair of iterative reconstruction for compensation of known rigid-body motion in SPECTBing Feng, Howard C Gifford, Richard D Beach, et al.
IEEE Transactions on Nuclear Science|March 26, 2010
Body Deformation Correction for SPECT ImagingSongxiang Gu, Joseph E McNamara, Joyeeta Mitra, et al.
IEEE Transactions on Nuclear Science|December 17, 2008
An Assessment of a Low-Cost Visual Tracking System (VTS) to Detect and Compensate for Patient Motion during SPECTJoseph E McNamara, Philippe Bruyant, Karen Johnson, et al.
Medical Physics|June 24, 2009
A flexible multicamera visual-tracking system for detecting and correcting motion-induced artifacts in cardiac SPECT slicesJoseph E McNamara, P Hendrik Pretorius, Karen Johnson, et al.
IEEE Transactions on Nuclear Science|December 17, 2008
A Robust Visual Tracking System for Patient Motion Detection in SPECT: Hardware SolutionsPhilippe P Bruyant, Michael A Gennert, Glen C Speckert, et al.
IEEE Transactions on Nuclear Science|December 17, 2008
An Adaptive Approach to Decomposing Patient-Motion Tracking Data Acquired During Cardiac SPECT ImagingRichard D Beach, Hans Depold, Guido Boening, et al.
IEEE Transactions on Nuclear Science|December 17, 2008
Feasibility of Stereo-Infrared Tracking to Monitor Patient Motion During Cardiac SPECT ImagingRichard D Beach, P Hendrik Pretorius, Guido Boening, et al.
Pageof 1