An Analysis of Neural Models for Walking Control

R. Reeve, J. Hallam
2005 IEEE Transactions on Neural Networks  
A large space of different neural models exists from simple mathematical abstrctions to detailed biophysical representations with strongly differing levels of complexity and biological relevance. Previous comparisons between models have looked at biological realism or mathematical tractability rather than expressive power. This paper, however, investigates whether more sophisticated models are better suited to a complex sensorimotor control task than simpler ones, or whether the more general
more » ... ure of groups of the simpler neurons allows them to collectively solve complex tasks better despite their individual simplicity. Many models have been proposed or used for sensorimotor control tasks such as the control of locomotion. Four such neural models with varying levels of complexity were chosen. Controllers made of networks of each neural type were evolved to generate locomotion in a simulated dynamically stable four-legged robot using a genetic algorithm. The problem domain was chosen as one for which no simple solution could be hand crafted and which, with its tight sensorimotor coupling, had strongly time-dependent properties as is common in many biological control tasks. Analysis of the results shows that the most complex and biologically based model is significantly better at walking control, even producing recognizable gaits.
doi:10.1109/tnn.2005.844901 pmid:15941000 fatcat:kequkdufevg35lkhyt5zmhp4bu