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Volume 39 Issue 8
Aug.  2017
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Article Navigation >  Chinese Journal of Engineering  > 2017  >  39(8): 1261-1267
SHI Tian-wei, WANG Hong, CUI Wen-hua, REN Ling. Two-dimensional space target searching based on semi-autonomous navigation and motor imagery for multi-rotor aircraft[J]. Chinese Journal of Engineering, 2017, 39(8): 1261-1267. doi: 10.13374/j.issn2095-9389.2017.08.017
Citation: SHI Tian-wei, WANG Hong, CUI Wen-hua, REN Ling. Two-dimensional space target searching based on semi-autonomous navigation and motor imagery for multi-rotor aircraft[J]. Chinese Journal of Engineering, 2017, 39(8): 1261-1267. doi: 10.13374/j.issn2095-9389.2017.08.017
shu

Two-dimensional space target searching based on semi-autonomous navigation and motor imagery for multi-rotor aircraft

doi: 10.13374/j.issn2095-9389.2017.08.017

  • 1) School of International Finance and Banking, University of Science and Technology Liaoning, Anshan 114051, China

  • 2) School of Mechanical Engineering and Automation, Northeastern University, Shenyang 110819, China

  • 3) Liaoning Julong Financial Equipment Co., Ltd., Anshan 114051, China

  • Received Date: 2016-09-06
    Abstract
  • A brain computer interface (BCI) system was proposed to realize the two-dimensional indoor space target searching for multi-rotor aircraft. This system consists of semi-autonomous navigation and decision subsystems. The semi-autonomous navigation subsystem is employed to provide feasible directions for the decision subsystem and avoid obstacles semi-automatically for multi-rotor aircraft. The decision subsystem utilizes the cross-correlation (CC) and logistic regression (LR) methods to implement motor imagery (MI) electroencephalogram (EEG) feature extraction and classification, respectively. The actual indoor target searching experiment validates the feasibility and effectiveness of this BCI system. Compared to similar methods, the proposed BCI system reduces the burden of the subjects and the control difficulties. The control precision increases by approximately ±10 cm.

     

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