Title :
Recovering observer translation with center-surround operators
Author :
Heeger, D.J. ; Jepson, A.D. ; Simoncelli, E.P.
Author_Institution :
NASA-Ames, Moffett Field, CA, USA
Abstract :
The optical flow field for an observer moving through a static environment depends on the observer´s translational and rotational motion along with the distances to each surface point. The authors previously introduced `subspace methods´ for recovering 3D motion and depth from optical flow. These methods solve first for the observer´s translation, independent of rotation and depth. The authors discuss a particular implementation of this general theory, utilizing `center-surround motion-opponent operators´ that prefer motion in one direction in the center and motion in the opposite direction in the surround. Cells in visual area MT of the primate brain are known to have velocity-selective receptive fields with a similar center-surround spatial organization. The authors propose a theoretical framework for analyzing MT cell responses
Keywords :
motion estimation; neurophysiology; visual perception; 3D motion; MT cell responses; center-surround spatial organization; egomotion recovery; motion perception; motion selective neurons; optical flow; optical flow field; primate brain; rotational motion; static environment; velocity-selective receptive fields; visual area MT; Computer science; Fluid flow measurement; Focusing; Head; Image analysis; Image motion analysis; Message-oriented middleware; Motion analysis; Motion measurement; Rotation measurement;
Conference_Titel :
Visual Motion, 1991., Proceedings of the IEEE Workshop on
Conference_Location :
Princeton, NJ
Print_ISBN :
0-8186-2153-2
DOI :
10.1109/WVM.1991.212782
