Title :
Simulating Recordings from Intrafascicular Electrodes to Facilitate Decoding Algorithm Development
Author :
Abdelghani, M. ; Abbas, J.J. ; Horch, K.W. ; Jung, R.
Abstract :
While decoded peripheral neural activity recorded by a longitudinal intrafascicular electrode (LIFE) from amputees can be used to control a single degree-of-freedom (DOF) robot arm, recording and decoding of signals from multiple LIFEs for multi-DOF motor control has not yet been achieved. We developed a tool to facilitate the development of online decoding algorithms for this task. The tool translates motor intent signals to simulated neural recordings from many LIFEs. Motor intent signals drive a pool of simulated motor neurons with various spike shapes, recruitment characteristics, and firing rate properties. Each LIFE records a weighted sum of a subset of simulated motor neuron activity patterns. Furthermore, we show by using simulated data sets that simple decoding schemes such as spike counting is a ´good´ estimator of motor intents.
Keywords :
biomedical electrodes; decoding; medical robotics; neurophysiology; LIFE; amputees; decoded peripheral neural activity; decoding algorithm development; decoding schemes; firing rate properties; intrafascicular electrodes; longitudinal intrafascicular electrode; motor intent signals; multi-DOF motor control; neural recordings; online decoding algorithms; recordings simulation; recruitment characteristics; signal decoding; signal recording; simulated data sets; single degree-of-freedom robot arm; spike shapes; Biomedical engineering; Decoding; Educational institutions; Electrodes; Firing; Nerve fibers;
Conference_Titel :
Biomedical Engineering Conference (SBEC), 2013 29th Southern
Conference_Location :
Miami, FL
Print_ISBN :
978-1-4799-0624-6
DOI :
10.1109/SBEC.2013.33
