Development of Design Tools for the Optimization of Biologically Based Control Systems
Case Western Reserve University
I plan to develop software that aids in the design of biomimetic control systems by optimizing the properties of the system in order to produce the desired output. Biologically based control systems offer legged vehicles an advantage over the current state of the art. Legged locomotion is the result of many complex, coordinated movements throughout the body, and requires a control system just as complex to produce useful propulsion. Designing such a system from scratch, however, is not easily done without quantification and optimization. Our group has produced some promising legged robot controllers composed of simulated neurons and synapses in a design based on an animal system, but in order to achieve the coordination and adaptability of an actual organism in a particular robot, the properties of each neuron, synapse, and muscle must be tuned. Therefore, if a reliable biologically based control system is to be developed, the entire system, neural and mechanical, must be optimized.