This study investigates the properties of motor pools in the human motor control
system. The simulations carried out as part of this study used two biologically
inspired neuronal models to simulate networks with properties similar to those
observed in the human motor system (Burke, 1991). The Synchronous neuronal
model developed as part of this study explicitly models the input/output spike train
and frequency relationship of each neuron. The motor pool simulations were carried
out using the INSIGHT TOO simulation software developed as part of this study.
INSIGHT TOO is a flexible neural design tool that allows the visual interactive
design of network connectivity and has the power of a node specification language
similar to that of BASIC that allows multi-layer, multi-model networks to be
simulated. The simulations have shown that the motor pools are capable of
reproducing commonly observed physiological properties during normal voluntary
reaching movements. As a result of these findings a theoretical model of ballistic
voluntary motor action was proposed called the Recruitment Model.
The Recruitment model utilises the "recruitment" principle known to exist in motor
pools and applies this distributed processing methodology to the higher levels of
motor action to explain how complex structures similar to the human skeletal
system might be controlled. A simple version of the Recruitment Model is simulated
showing an animation of a running "stick man". This simulation demonstrates some
of the principles necessary to solve problems relating to synergy formation.
Date of Award | 1996 |
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Original language | English |
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Awarding Institution | |
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An investigation into motor pools and their applicability to a biologically inspired model of ballistic voluntary motor action
Norman, M. P. (Author). 1996
Student thesis: PhD