Title :
SVD and higher-order statistical processing of human nerve signals
Author :
Upshaw, Barry ; Sinkj?¦r, Thomas
Author_Institution :
Centre for Motor-Sensory Interaction, Aalborg Univ., Denmark
Abstract :
Human afferent whole nerve signals recorded using an implanted nerve-cuff electrode were analyzed using two algorithms based on the statistical properties of the signals. The processing method typically described in the literature (Rectification and Bin-Integration-RBI) has serious shortcomings in processing these signals, which have very poor signal-to-noise ratios. Algorithms based on a Singular Value Decomposition (SVD) of the signal´s 2nd and Higher-Order Statistics (HOS) have resulted in more robust signal detection. Reliable detection of afferent nerve signals is essential if such signals are to be of use in artificial sensory-based functional electrical stimulation neural prosthetics
Keywords :
bioelectric potentials; medical signal processing; neurophysiology; singular value decomposition; statistical analysis; 2nd-order statistics; afferent nerve signals; algorithms; artificial sensory-based functional electrical stimulation neural prosthetics; bin-integration; higher-order statistical processing; higher-order statistics; human afferent whole nerve signals; implanted nerve-cuff electrode; rectification; signal detection; signal statistical properties; signal-to-noise ratio; Algorithm design and analysis; Electrodes; Higher order statistics; Humans; Robustness; Signal analysis; Signal detection; Signal processing; Signal to noise ratio; Singular value decomposition;
Conference_Titel :
Engineering in Medicine and Biology Society, 1996. Bridging Disciplines for Biomedicine. Proceedings of the 18th Annual International Conference of the IEEE
Print_ISBN :
0-7803-3811-1
DOI :
10.1109/IEMBS.1996.647525
