Patent
1992-08-28
1994-12-06
MacDonald, Allen R.
395 21, 395 24, 395 25, G06F 1518
Patent
active
053718348
ABSTRACT:
A method and an apparatus for the rapid learning of nonlinear mappings and topological transformations using a dynamically reconfigurable artificial neural network is presented. This fully-recurrent Adaptive Neuron Model (ANM) network has been applied to the highly degenerative inverse kinematics problem in robotics, and its performance evaluation is bench-marked. Once trained, the resulting neuromorphic architecture was implemented in custom analog neural network hardware and the parameters capturing the functional transformation downloaded onto the system. This neuroprocessor, capable of 10.sup.9 ops/sec, was interfaced directly to a three degree of freedom Heathkit robotic manipulator. Calculation of the hardware feed-forward pass for this mapping was benchmarked at .apprxeq.10 .mu.sec.
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Dorvil Richemond
Jones Thomas H.
Kusmiss John H.
MacDonald Allen R.
Miller Guy M.
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