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基于脑-机接口技术的上肢康复训练系统 被引量:23

Brain-computer interface based device for upper limb rehabilitation training
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摘要 目的:脑-机接口是实现脑和电子设备直接通讯的技术,基于该技术可以实现一个强调患者主动参与的上肢康复训练机械手系统。方法:开发了一个结合脑-机接口技术的上肢康复训练系统。该系统由脑电放大器、实现脑电信号处理和训练器控制的计算机、上肢康复训练系统3部分组成。结果:该系统可以由患者在治疗计划的指导下来主动控制康复训练的过程及内容,强调患者参与治疗的主动性,有利于提高治疗效果。结论:该系统充分调动患者的主动参与意识,使患者的精神高度集中于动作训练,从而力求达到较为理想的康复训练效果。 Objective: Brain-computer interface(BCI) is a communication channel connecting from the brain to a computer or another electronic device.Based on the BCI technology, we designed a device for upper limb rehabilitation training with patients′ enthusiasm. Method:We designed a rehabilitation training system which consists of three parts: an EEG signal amplifier, a computer which implements the EEG signal processing and a controlling system. Result:Patients could control the process and contents of the training by using this system and joined the training more enthusiastically.Conclusion:The system encourages the patients′enthusiasm which leads to better training results.Author′s address Dept. of Biomedical Engineering, Tsinghua University, Beijing,100084
作者 孟飞 黄军友 高小榕
机构地区 清华大学生物医学工程系
出处 《中国康复医学杂志》 CAS CSCD 2004年第5期327-329,共3页 Chinese Journal of Rehabilitation Medicine
基金 国家"十五"863项目(2001AA422310) 国家"十五"科技攻关项目(2001BA706B-12)
关键词 脑-机接口 上肢 康复训练 机械手系统 训练效果 脑电图 脑卒中 运动功能障碍 brain-computer interface rehabilitation training upper limb EEG
分类号 R49 [医药卫生—康复医学]
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参考文献5

二级参考文献24

  • 1Lure PS,Reinkensmeyer DJ, Lehman SL. Robotic assist devices for bimanual physical therapy: preliminary experience[J]. IEEE Transactions on Rehabilitation Engineering, 1993, 1(3): 185-191.
  • 2Reinkensmeyer DJ, Lehman SL, Lure PS. A bimanual therapy robot: controller design and prototype experiments[J]. Proceedings of the Annual Conference on Engineering in Medicine and Biology, 1993, 15: 938-939.
  • 3Lum PS,Lehman SL, Reinkensmeyer DJ. The bimanual lifting rehabilitator: an adaptive machine for therapy of stroke patient[J]. IEEE Transaction on Rehabilitation Engineering, 1995, 3(2): 166-174.
  • 4Krebs HI, Hogan N, Aisen ML,et al.Robot-aided neurorehabilitation [J]. IEEE Transactions on Rehabilitation Engineering,1998, 6(1): 75-87.
  • 5Krebs HI,Volpe BT, Aisen ML, et al. Increasing productivity and quality of care: robot-aided neuro-rehabilitation[J]. Journal of Rehabilitation Research and Development, 2000, 37(6):639-652.
  • 6Reinkensmeyer DJ,Schmit BD,Rymer WZ.Assessment of Active and Passive Restraint During Guided Reaching After Chronic Brain Injury[J]. Annals of Biomedical Engineering, 1999, 27:805-814.
  • 7Reinkensmeyer DJ, Kahn LE, Averbuch A, et al. Understanding and treating arm movement impairment after chronic brain injury: Progress with the ARM guide[J]. Journal of Rehabilitation Research and Development, 2000, 37(6): 653-662.
  • 8Burgar CG, Lum PS, Shor PC, et al.Development of robot for rehabilitation therapy: The PALO Alto VA/Stanford experience[J]. Journal of Rehabilitation Research and Development, 2000,37(6): 663-673.
  • 9Johnson MJ,Van der Loos HFM,Burgar CG,et al.Driver's SEAT:Simulation environment for ann therapy[C]. ICORR'99:International Conference on Rehabilitation Robotics,Stanford,CA/227-234.
  • 10Boian R, Sharma A,Han C,et al.Virtual Reality-Based PostStroke Hand Rehabilitation[C]. Proceedings of Medicine Meets Virtual Reality 2002 Conference, 2002,64-70.

共引文献47

同被引文献334

引证文献23

二级引证文献182

中国康复医学杂志
2004年 第5期

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