Κυριακή 14 Ιανουαρίου 2018

Decoding hind limb kinematics from neuronal activity of the dorsal horn neurons using multiple level learning algorithm.

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Decoding hind limb kinematics from neuronal activity of the dorsal horn neurons using multiple level learning algorithm.

Sci Rep. 2018 Jan 12;8(1):577

Authors: Yeganegi H, Fathi Y, Erfanian A

Abstract
Decoding continuous hind limb joint angles from sensory recordings of neural system provides a feedback for closed-loop control of hind limb movement using functional electrical stimulation. So far, many attempts have been done to extract sensory information from dorsal root ganglia and sensory nerves. In this work, we examine decoding joint angles trajectories from the single-electrode extracellular recording of dorsal horn gray matter of the spinal cord during passive limb movement in anesthetized cats. In this study, a processing framework based on ensemble learning approach is propose to combine firing rate (FR) and interspike interval (ISI) information of the neuronal activity. For this purpose, a stacked generalization approach based on recurrent neural network is proposed to enhance decoding accuracy of the movement kinematics. The results show that the high precision neural decoding of limb movement can be achieved even with a single electrode implanted in the spinal cord gray matter.

PMID: 29330489 [PubMed - in process]



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