Title :
Task-dependent scheduling of feedback gains in animal motor systems: too much, too soon for FES control?
Author :
Prochazka, Arthur
Author_Institution :
Div. of Neurosci., Alberta Univ., Edmonton, Alta., Canada
Abstract :
Summary form only given. The idea that certain parts of the mammalian nervous system, such as the cerebellum, might be specialized for setting transmission parameters elsewhere is discussed. Experiences with the control of electrical stimulation in paretic patients, experiences which have shown that transducer systems are still far too primitive to allow this level of sophistication, even in laboratory-bound devices, are described. At best controllers rely on fixed-parameter feedback from one or two sensors to cycle through a simple finite-state control sequence. Kinematic variables are essentially driven open-loop. The author´s approach to functional electrical stimulation (FES) control is constrained by transducer technology, and evolves virtually without reference to the features of the animal control systems described.<>
Keywords :
biocontrol; bioelectric phenomena; biomechanics; feedback; neurophysiology; orthotics; robots; transducers; animal control systems; animal motor systems; cerebellum; electrical stimulation; feedback gains; fixed-parameter feedback; functional electrical stimulation; laboratory-bound devices; mammalian nervous system; open-loop kinematic variables; paretic patients; robotic systems; sensors; simple finite-state control sequence; task-dependent scheduling; transducer systems; transmission parameters; Animals; Control systems; Electric variables control; Electrical stimulation; Feedback; Kinematics; Nervous system; Neuromuscular stimulation; Open loop systems; Transducers;
Journal_Title :
Engineering in Medicine and Biology Magazine, IEEE
