ABSTRACT
The paper deals with a principle in the construction and apparatus realization of a biotechnical feedback system (BT-FS) for self-regulation (correction) of rapid motor reactions (RMR). Experiments have indicated that the system has good training and rehabilitative abilities as the examinee develops permanent RMR.
Subject(s)
Biofeedback, Psychology/instrumentation , Biomechanical Phenomena , Humans , Models, Theoretical , Reaction Time , Time FactorsABSTRACT
The methods of the information (entropy) error theory were used to make a metrological analysis of the well-known commercial measuring systems for timing an anticipative reaction (AR) to the position of a moving object, which is based on the electromechanical, gas-discharge, and electron principles. The required accuracy of measurement was ascertained to be achieved only by using the systems based on the electron principle of moving object simulation and AR measurement.