dc.relation.reference | [1] Liberson, W. T., Holmquest, H. J., Scott, D., and Dow, A., "Functional electrotherapy: stimulation of the peroneal nerve synchronized with the swing phase of the gait of hemiplegic patients," Archives of Physical Medicine and Rehabilitation, vol. 42, pp. 101~105, 1961.
[2] Ijzerman, M., Stoffers, T. S., Groen, F. A. C. G., Klatte, M. A. P., Snoek, G. J., Vorsteveld, J. H. C., Nathan, R., and Hermens, H. J., "The NESS handmaster orthosis: Restoration of hand function in C5 and stroke patients by means of electrical stimulation," Journal of Rehabilitation Sciences, vol. 9, pp. 86-89, 1996.
[3] 葉建賢,功能性電刺激手部握物之滑動感測器研究,國立台灣大學機械工程學研究所,台北市,2003。
[4] Bhadra, Niloy and Peckham, P. H., "Peripheral nerve stimulation for restoration of motor function," Journal of Clinical Neurophysiology, vol. 14, pp. 378~393, 1997.
[5] Popovic, M. R., Keller, T., Pappas, I. P. I., Dietz, V., and Morari, M., "Surface-stimulation technology for grasping and walking neuroprostheses," IEEE Engineering in Medicine & Biology Magazine, vol. 20, pp. 82~93, 2001.
[6] Donaldson, N. and Yu, C. H., "FES standing control by handle reactions of leg muscle stimulation," IEEE Transactions on Rehabilitation Engineering, vol. 4, pp. 280~284, 1998.
[7] Snoek, G. J., IJzerman, M. J., Stoffers, T. S., and Zilvold, G., "Use of the NESS Handmaster to restore handfunction in tetraplegia: clinical experiences in ten patients," Internation Medical Society of Paraplegia, vol. 38, pp. 244~249, 2000.
[8] Popovic, M. R., Popovic, D. B., and Keller, T., "Neuroprostheses for Grasping," Neurological Research, pp. 8~10, 2002.
[9] Kilgore, K. L. and Peckham, P. H., "An implanted upper-extremity neuroprostheses," The Journal of Bone and Joint Surgery, vol. 79-A, pp. 533~541, 1997.
[10] Esnouf, J., Taylor, P., and Hobby, J., "Clinical experience of the neurocontrol Freehand neuro prosthesis for tetraplegic hand function," presented at 5th IPBM Clinical FES Meeting, Salisbury, 1997.
[11] Donna, R. and Julie, G., Neurocontrol Freehand System Clinician Manual. U. S. A., 2000.
[12] Esnouf, J., Taylor, P., and Hobby, J., "Clinical experience of the neurocontrol Freehand system," presented at 6th IPEM Clinical FES Meeting, University of Surrey, 2000.
[13] Prochazka, A., Gauthier, M., Wieler, M., and Kanwell, Z., "The Bionic Glove: An electrical stimulator garment that provides controlled grasp and hand opening in quadriplegia," Archives of Physical Medicine and Rehabilitation, vol. 78, pp. 1~7, 1997.
[14] Haugland, M. K. and Hoffer, J. A., "Slip information provided by nerve cuff signals: application in closed-loop control of functional electrical stimulation," IEEE TRANSACTIONS ON REHABILITATION ENGINEERING, vol. 2, pp. 29~36, 1994.
[15] Haugland, M., Lickel, A., Haase, J., and Sinkjar, T., "Control of FES thumb force using slip information obtained from the cutaneous electroneurogram in quadriplegic man," IEEE Transactions on Rehabilitation Engineering, vol. 7, pp. 215~227, 1999.
[16] Haugland, M. and Lickel, A., "Improved method for use of natural sensory feedback in control of grasp force for stimulated hand muscles," 20th Annual Conference of the IEEE Engineering in Medicine and Biology Society, vol. 5, pp. 2310~2312, 1998.
[17] Lickel, A., Haugland, M., and Sinkjar, T., "Comparison of catch responses between a tetraplegic patient using an FES system, and healthy control subject," presented at 18th Annual Conference of the IEEE Engineering in Medicine and Biology Society, Amsterdam, 1996.
[18] Su, R. and Kermiche, N., "A learning scheme for open-loop and closed-loop control," IEEE International Symposium, vol. 1.1, pp. 523~528, 1989.
[19] Tura, Andrea. and Lamberti, Claudio., "Experimental development of a sensory control system for an upper limb myoelectric prosthesis with cosmetic covering," Journal of Rehabilitation Research & Development, vol. 35, pp. 14, 2001.
[20] Michael, J. W., "Upper limb powered components and controls: current concepts," Clinical Prosthetics and Orthotics, vol. 10, pp. 66~77, 1986.
[21] 陳俊彥,使用生醫訊號做為多自由度電動義肢手控制器之建構,國立臺灣大學機械工程學研究所,台北市,1998。
[22] 江俊穎,DSP為基之多自由度義肢手控制器,國立臺灣大學機械工程學研究所,台北市,1999。
[23] 蔡柏修,多手指人工義手系統整合與發展,國立臺灣大學機械工程學研究所,台北市,2000。
[24] Carrozza, M. C., Massa, B., Micera, S., Zecca, M., and Dario, P., "Wearable artificial hand for prosthetics and humanoid robotics applications," presented at IEEE-RAS International Conference on Humanoid Robots HUMANOIDS 2001, Waseda University International Conference Center, Tokyo, Japan, 2001.
[25] Robert, D. H. and Mark, R. C., "Sensing skin acceleration for slip and texture perception," presented at IEEE International Conference, 1989.
[26] Holweg, E. G. M., Hoeve, H., Jongkind, W., Melchiorri, C., and Bonivento, C., "Slip detection by tactile sensors: algorithms and experimental results," IEEE International Conference, vol. 1.4, pp. 3234~3239, 1996.
[27] Yamada, Yoji., Morita, Hiroyuki., and Umetani, Yoji., "Vibrotactile sensor generating impulsive signals for distinguishing only slipping state," IEEE/RSJ International Conference, vol. 1.2, pp. 844~850, 1999.
[28] Yamada, Daisuke., Maeno, Takashi., and Yamada, Yoji., "Artificial finger skin having ridges and distributed tactile sensors used for grasp force control," IEEE/RSJ International Conference, vol. 1.2, pp. 686~691, 2001.
[29] 蔡容之,手部關節角度與表面式電刺激參數關聯之研究,國立台灣大學機械工程學研究所,台北市,2002。
[30] Naaman, S. C., Stein, R. B., and Thomas, C., "Minimizing discomfort with surface neuromuscular stimulation," Neurorehabilitation and Neural Repair, vol. 14, pp. 223~228, 2000. | zh_TW |