Title :
On the asynchronously continuous control of mobile robot movement by motor cortical spiking activity
Author :
Zhiming Xu ; So, Rosa Q. ; Toe, Kyaw Kyar ; Kai Keng Ang ; Cuntai Guan
Author_Institution :
Dept. of Neural & Biomed. Technol., ASTAR, Singapore, Singapore
Abstract :
This paper presents an asynchronously intracortical brain-computer interface (BCI) which allows the subject to continuously drive a mobile robot. This system has a great implication for disabled patients to move around. By carefully designing a multiclass support vector machine (SVM), the subject´s self-paced instantaneous movement intents are continuously decoded to control the mobile robot. In particular, we studied the stability of the neural representation of the movement directions. Experimental results on the nonhuman primate showed that the overt movement directions were stably represented in ensemble of recorded units, and our SVM classifier could successfully decode such movements continuously along the desired movement path. However, the neural representation of the stop state for the self-paced control was not stably represented and could drift.
Keywords :
brain-computer interfaces; medical robotics; mobile robots; support vector machines; BCI; SVM; asynchronously continuous control; brain-computer interface; disabled patients; mobile robot movement; motor cortical spiking activity; movement directions; multiclass support vector machine; neural representation; nonhuman primate; self-paced control; self-paced instantaneous movement; Aerospace electronics; Brain-computer interfaces; Decoding; Mobile robots; Support vector machines; Training; Vectors; Brain-computer interface; maximal a posterior; motor cortex; neural decoding; support vector machine;
Conference_Titel :
Engineering in Medicine and Biology Society (EMBC), 2014 36th Annual International Conference of the IEEE
Conference_Location :
Chicago, IL
DOI :
10.1109/EMBC.2014.6944266
