Complexity (Jan 2020)

A Closed-Loop Brain Stimulation Control System Design Based on Brain-Machine Interface for Epilepsy

  • Moshu Qian,
  • Guanghua Zhong,
  • Xinggang Yan,
  • Heyuan Wang,
  • Yang Cui

DOI
https://doi.org/10.1155/2020/3136715
Journal volume & issue
Vol. 2020

Abstract

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In this study, a closed-loop brain stimulation control system scheme for epilepsy seizure abatement is designed by brain-machine interface (BMI) technique. In the controller design process, the practical parametric uncertainties involving cerebral blood flow, glucose metabolism, blood oxygen level dependence, and electromagnetic disturbances in signal control are considered. An appropriate transformation is introduced to express the system in regular form for design and analysis. Then, sufficient conditions are developed such that the sliding motion is asymptotically stable. Combining Caputo fractional order definition and neural network (NN), a finite time fractional order sliding mode (FFOSM) controller is designed to guarantee reachability of the sliding mode. The stability and reachability analysis of the closed-loop tracking control system gives the guideline of parameter selection, and simulation results based on comprehensive comparisons are carried out to demonstrate the effectiveness of proposed approach.