Title :
Cooperative vision integration through data-parallel neural computations
Author :
Toborg, Scott T. ; Hwang, Kai
Author_Institution :
Hughes Res. Lab., Malibu, CA, USA
fDate :
12/1/1991 12:00:00 AM
Abstract :
The authors describe a neural network approach for combining processing of multiple early vision modules. Energy functions for coupling the computation of intensity contours, optical flow, and stereo disparity are defined. Hopfield neural networks are used for function minimization with deterministic annealing to avoid spurious local minima. Vision integration schemes are developed by extending the work of T.A. Poggio et al. (1988) to include cooperative interactions between different vision modules and the Hebbian adaptation of vision module coupling on a massively parallel computer consisting of 4096 processing elements operated in a single-instruction-multiple-data mode. Simple experiments assess the performance of various integration approaches. The resulting algorithms facilitate fast, robust image segmentation
Keywords :
computer vision; computerised picture processing; neural nets; Hebbian adaptation; Hopfield neural networks; cooperative vision integration; data-parallel neural computations; deterministic annealing; function minimization; image segmentation; intensity contours; massively parallel computer; multiple early vision modules; neural network approach; optical flow; single-instruction-multiple-data mode; stereo disparity; Annealing; Computer vision; Concurrent computing; Hopfield neural networks; Image motion analysis; Image segmentation; Neural networks; Optical computing; Optical coupling; Robustness;
Journal_Title :
Computers, IEEE Transactions on
