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Making sense of artificial hands

Pages 1-18 | Received 11 Aug 2010, Accepted 20 Sep 2010, Published online: 30 Nov 2010

References

  • Lai, J.C.K., Schoen, M.P., Perez, Gracia A., Naidu, D.S. and Leung, S.W., 2007, Prosthetic devices: challenges and implications of robotic implants and biological interfaces. Proceedings of the Institution of Mechanical Engineers, Part H: Journal of Engineering in Medicine, 221, 173–183.
  • Pylatiuk, C., Schulz, S. and Doderlein, L., 2007, Results of an Internet survey of myoelectric prosthetic hand users. Prosthetics and Orthotics International, 31, 362–370.
  • Winkler, W. and Bierwirth, W., 1992, The use of a gliding detector for the control of prostheses-hand. Proceedings of the 7th World Congress ISPO, Chicago, IL, USA, 28 June–3 July 1992, p. 188.
  • Biddiss, E.A., Chau, T.T., 2007, Upper limb prosthesis use and abandonment: A survey of the last 25 years. Prosthetics and Orthotics International, 31, 236–257.
  • Cipriani, C., Antfolk, C., Balkenius, C., Rosén, B., Lundborg, G., Carrozza, M.C. and Sebelius, F.A., 2009, Novel concept for a prosthetic handwith a bidirectional interface: a feasibility study. IEEE Transactions on Biomedical Engineering, 56, 2739–2743.
  • Matrone, G., Cipriani, C., Secco, E.L., Carrozza, M.C. and Magenes, G., 2009, Bio-inspired controller for a dexterous prosthetic hand based on principal components analysis. 31st Annual International Conference of the IEEE EMBS, Minneapolis, MN, USA, 2–6 September 2009, pp. 5022–5025.
  • Takeda, H., Tsujiuchi, N., Koizumi, T., Kan, H., Hirano, M. and Nakamura, Y., 2009, Development of prosthetic arm with pneumatic prosthetic hand and tendon-driven wrist. 31st Annual International Conference of the IEEE EMBS, Minneapolis, MN, USA, 2–6 September 2009, pp. 5048–5051.
  • Adee, S., 2009, The revolution will be prosthetized. IEEE Spectrum, 46, 36–40.
  • Castellini, C., van der Smagt, P., Sandini, G. and Hirzinger, G., 2008, Surface EMG for force control of mechanical hands. IEEE International Conference on Robotics and Automation, Pasadena, CA, USA, 19–23 May 2008, pp. 725–730.
  • Cipriani, C., Controzzi, M., Vecchi, F. and Carrozza, M.C., 2008, Embedded hardware architecture based on microcontrollers for the action and perception of a transradial prosthesis. Proceedings of the 2nd Biennial IEEE/RAS-EMBS International Conference on Biomedical Robotics and Biomechanics, Scottsdale, AZ, USA, 19–22 October 2008, pp. 848–853.
  • Tenore, F., Armiger, R.S., Vogelstein, R.J., Englehart, K., Wenstrand, D. S. and Harshbarger, S.D., An embedded controller for a 7-degree of freedom prosthetic arm. 30th Annual International IEEE EMBS Conference, Vancouver, British Columbia, Canada, 20–24 August 2008, pp. 185–188.
  • Cipriani, C., Zaccone, F., Micera, S. and Carrozza, M.C., 2008, On the shared control of an EMG-controlled prosthetic hand: analysis of user–prosthesis interaction. IEEE Transactions on Robotics, 24, 170–184.
  • Clark, S. and Weir, F., 2008, Development of a clinically viable multifunctional underacutrated hand prosthesis using differential transmissions. Proceedings of the Symposium on Measuring Success in Upper Limb Prosthetics MEC 08, University of New Brunswick, Fredericton, Canada, 13–15 August 2008, pp. 244–247.
  • Controzzi, M., Cipriani, C. and Carrozza, M.C., 2008, Mechatronic design of a transradial cybernetic hand. IEEE/RSJ International Conference on Intelligent Robots and Systems, Nice, France, 22–26 September 2008, pp. 576–581.
  • Khandan, H. and Lucasa, C., 2008, Tactile based fuzzy-bayesian controller for prosthetic hand. Proceedings of the 5th International Symposium on Mechatronics Applications (ISMA08), Amman, Jordan, 27–29 May 2008, pp. 1–4.
  • Kuniholm, J. and Clark, R.L., 2008, Software underactuation for reduced input control of large degree of freedom structures: development of a hand control strategy for advanced upper extremity prosthetics. Proceedings of the Symposium on Measuring Success in Upper Limb Prosthetics MEC 08, University of New Brunswick, Fredericton, Canada, 13–15 August 2008, pp. 125–129.
  • Mitchell, M. and Weir, R.F., 2008, Development of a clinically viable multifunctional hand prosthesis. Proceedings of the Symposium on Measuring Success in Upper Limb Prosthetics MEC 08, University of New Brunswick, Fredericton, Canada, 13–15 August 2008, pp. 45–49.
  • Newman, P., 2008, Multi-articulating hands & fingers – technical strategies for improved patient function and myoelectric uptake. Proceedings of the Symposium on Measuring Success in Upper Limb Prosthetics MEC 08, University of New Brunswick, Fredericton, Canada, 13–15 August 2008, p. 183.
  • Puchhammer, G., 2008, Michelangelo 03- a versatile hand prosthesis, featuring superb controllability and sophisticated bio mimicry. Proceedings of the Symposium on Measuring Success in Upper Limb Prosthetics MEC 08, University of New Brunswick, Fredericton, Canada, 13–15 August 2008, p. 162.
  • Schulz, S., Pylatiuk, C., Kargov, A., Werner, T., Gaiser, I., Reischl, M. and Oberle, R., 2008, Design and preliminary experience with fliudhand mk III. Proceedings of the Symposium on Measuring Success in Upper Limb Prosthetics MEC 08, University of New Brunswick, Fredericton, Canada, 13–15 August 2008, pp. 197–199.
  • Weir, R., Mitchell, M., Clark, S., Puchhammer, G., Haslinger, M., Grausenburger, R., Kumar, N., Hofbauer, R., Kushnigg, P., Cornelius, V., Eder, M., Eaton, H. and Wenstrand, D., 2008, The intrinsic hand – a 22 degree-of-freedom artificial hand-wrist replacement. Proceedings of the Symposium on Measuring Success in Upper Limb Prosthetics MEC 08, University of New Brunswick, Fredericton, Canada, 13–15 August 2008, pp. 233–237.
  • Zhao, D.W., Jiang, L., Huang, H., Jin, M.H. and Liu, H., 2008, Development of a multi-DOF anthropomorphic prosthetic hand. Journal of the Harbin Institute of Technology, 40, 1067–1070.
  • Jeong, D.H., Chu, J.U. and Lee, Y.J., 2008, Development of KNU hand with infrared LED-based tactile fingertip sensor. International Conference on Control, Automation and Systems, COEX, Seoul, Korea; 14–17 October 2008, pp. 1156–1161.
  • Zollo, L., Roccella, S., Guglielmelli, E., Carrozza, M.C. and Dario, P., 2007, Biomechatronic design and control of an anthropomorphic artificial hand for prosthetic and robotic applications. IEEE/ASME Transactions on Mechtronics, 12, 418–429.
  • Carrozza, M.C., Cappiello, G., Micera, S., Edin, B.B., Beccai, L. and Cipriani, C., 2006, Design of a cybernetic hand for perception and action. Biological Cybernetics, 95, 629–644.
  • Edin, B.B. Beccai, L., Ascari, L., Roccella, S., Cabibihan, J.J. and Carrozza, M.C., 2006, A bio-inspired approach for the design and characterization of a tactile sensory system for a cybernetic prosthetic hand. Proceedings of the IEEE International Conference on Robotics and Automation, Orlando, Florida, 15-19 May 2006, pp. 1354–1358.
  • Zhao, J., Jiang, L., Shi, S., Liu, H.C.H. and Hirzinger, G., 2006, A five-fingered underactuated prosthetic hand system. Proceedings of the IEEE International Conference on Mechatronics and Automation, Luoyang, China, 25–28 June 2006, pp. 1453–1458.
  • Zhao, D.W., Jiang, L., Huang, H., Jin, M.H., Cai, H.G. and Liu, H., 2006, Development of a multi-DOF anthropomorphic prosthetic hand. Proceedings of the IEEE International Conference on Robotics and Biomimetics, Kunming, China, 17–20 December 2006, pp. 878–883.
  • Dario, P., Carrozza, M.C., Guglielmelli, E., Laschi, C., Menciassi, A., Micera, S. and Vecchi, F., 2005, Robotics as a future and emerging technology. IEEE Robotics & Automation Magazine29–45.
  • Carrozza, M.C., Cappiello, G., Beccai, L., Zaccone, F., Micera1, S. and Dario, P., 2004, Design methods for innovative hand prostheses. IEEE/EMBS Proceedings of the 26th Annual International Conference, San Francisco, CA, USA, September 2004, pp. 1–5.
  • Pylatiuk, C., Schulz, S., Kargov, A. and Bretthauer, G., 2004, Two multiarticulated hydraulic hand prostheses. Artificial Organs, 28, 980–986.
  • Dunlop, G.R., 2003, A distributed controller for the Canterbury Hand. Proceedings of the International Conference on Mechtronics, ICOM, Loughborough, UK, 19–20 June 2003, pp. 619–625.
  • Zecca, M., Micera, S., Carrozza, M.C. and Dario, P., 2002, Control of multifunctional prosthetic hands by processing the electromyographic signal. Critical Reviews in Biomedical Engineering, 30, 459–485.
  • Carrozza, M.C., Micera, S., Massa, B., Zecca, M., Lazzan, R., Canelli, N. and Dario, P., 2001, The development of a novel biomechatronic hand – ongoing research and preliminary results. Proceedings of the IEEE ASME International Conference on Advanced Intelligent Mechatronics, Como, Italy, 8–12 July 2001, pp. 249–245.
  • Abboudi, R.L., Glass, C.A., Newby, N.A., Flint, J.A. and Craelius, W.A., 1999, Biomimetic controller for a multifinger prosthesis. IEEE Transactions on Rehabilitation Engineering, 7, 121–129.
  • Pons, J.L., Ceres, R. and Pfeiffer, F., 1999, Multifingered dextrous robotics hand design and control: A review. Robotica, 17, 661–674.
  • Leoni, F., 1998, Implementing robotic grasping tasks using a biological approach. Proceedings of the IEEE International Conference on Robotics and Automation, 3, 2274–2280.
  • Lin, L.R. and Huang, H.P., 1998, NTU hand: A new design of dexterous hands. Journal of Mechanical Desisng, Transactions of ASME, 120, 282–292.
  • Kyberd, P.J., Evans, M. and te Winkel, S., 1998, An intelligent anthropomorphic hand, with automatic grasp. Robotica, 16, 531–536.
  • Lin, L.R. and Huang, H.P., 1996, Mechanical design of a new multifingered robot hand. Proceedings of the IEEE International Conference on Robotics and Automation, Minneapolis, MN, USA, April 1996, pp. 1471–1476.
  • Kyberd, P., Tregidgo, R., Sachetti, R., Schmidl, H., Snaith, M., Holland, O., Marchese, S., Bergamasco, M., Bagwell, P. and Chappell, P., 1993, The MARCUS intelligent hand prosthesis. In: E. Ballabio, I. Placencia-Porrero and R. Puig de la Bellacasa (Eds) Rehabilitation Technology: Proceedings of the 1st TIDE Congress, Brussels, 6–7 April 1993, pp. 98–102.
  • Fukuda, T., 1987, Basic study on coordination control of artificial fingers (1st report, a structure of five fingers with multiple degrees-of-freedom and a concept of three dimensional grasping). Nippon Kikai Gakkai Ronbunsh, C Hen/Transactions of the Japan Society of Mechanical Engineers, Part C, 53(487), 731–738.
  • Reiter, R., 1948, Eine neue Elektrokunsthand. Grenzgebiete der Medizin, 1, 133–135.
  • McLean, L. and Scott, R., 2004, The early history of myoelectric control of prosthetic limbs (1945–1970). Powered Upper Limb Prosthesis In: A. Muzumdar (Ed.) Springer-Verlag, Berlin: pp. 1–15.
  • Tomovic, R and Boni, G., 1962, An adaptive artificial hand. IRE Transactions on Automatic Control, 7(3), 3–10.
  • Kato, I., Yamakawa, S., Ichikawa, K. and Sano, M., 1969, Multifunctional myoelectric hand prosthesis with pressure sensory feedback system. Proceedings of the 3rd International Symposium on External Control of Human Extremities, Dubrovnik, 25–30 August 1969, pp. 155–170.
  • Todd, R. and Nightingale, J.M., 1969, Adaptive prehension control for a prosthetic hand. Proceedings of the 3rd International Symposium on External Control of Human Extremities, Dubrovnik, 25–30 August 1969, pp. 171–183.
  • Dorrance, D.W., 1912, Artificial hand. US patent 1 042 413.
  • Kuniholm, J., 2009, Open arms. IEEE Spectrum 46(3), 36–41.
  • Sears, H., Iversen, E., Archer, S., Linder, J. and Hays, K., 2008, Grip force feedback in an electric hand – preliminary results. Proceedings of the Symposium on Measuring Success in Upper Limb Prosthetics MEC 08, University of New Brunswick, Fredericton, Canada, 13–15 August 2008, pp. 175–178.
  • Beeker, Th.W., During, J. and den Hertog, A., 1967, Artificial touch in a hand prosthesis. Medical & Biological Engineering, 5, 47–49.
  • Patel, P., 2009, The brain–machine interface, unplugged. IEEE Spectrum9–10.
  • Vinjamuri, R., Weber, D.J., Degenhart, A.D., Collinger, J.L., Sudre, G.P., Adelson, P.D., Holder, D.L., Boninger, M.L., Schwartz, A.B., Crammond, D.J., Tyler-Kabara, E.C. and Wang, W., 2009, A fuzzy logic model for hand posture control using human cortical activity recorded by micro-ECoG electrodes. 31st Annual International Conference of the IEEE EMBS, Minneapolis, MN, USA, 2–6 September 2009, pp. 4339–4342.
  • Borton, D.A, Song, Y.-K., Patterson, W.R., Bull, C.W., Park, S., Laiwalla, F., Donoghue, J.P. and Nurmikko, A.V., 2009, Wireless, high-bandwidth recordings from non-human primate motor cortex using a scalable 16-Ch implantable microsystem. 31st Annual International Conference of the IEEE EMBS, Minneapolis, MN, USA, 2–6 September 2009, pp. 5531–5534.
  • Aggarwal, V., Singhal, G., He, J., Schieber, M.H. and Thakor, N.V., 2008, Towards closed-loop decoding of dexterous hand movements using a virtual integration environment. 30th Annual International IEEE EMBS Conference, Vancouver, British Columbia, Canada, 20–24 August 2008, pp. 1703–1706.
  • Micera, S, Navarro, X., Carpaneto, J., Citi, L., Tonet, O., Rossini, P.M., Carrozza, M.C., Hoffmann, K.P., Vivó, M., Yoshida, K. and Dario, P., 2008, On the use of longitudinal intrafascicular peripheral interfaces for the control of cybernetic hand prostheses in amputees. IEEE Transactions on Neural Systems & Rehabilitation Engineering, 16, 453–472.
  • Gasson, M., Hutt, B., Goodhew, I., Kyberd, P. and Warwick, K., 2005, Invasive neural prosthesis for neural signal detection and nerve stimulation. International Journal of Adaptive Control and Signal Processing, 19, 365–375.
  • Warwick, K., Gasson, M., Hunt, B., Goodhew, I., Kyberd, P., Andrews, B., Teddy, B. and Shad, A., 2003, The application of implant technology for cybernetic systems. Archives of Neurology, 60, 1369–1373.
  • Lundborg, G., 2000, Tomorrow's artificial hand. Scandinavian Journal of Plastic and Reconstrive Hand Surgery, 34, 97–100.
  • Herberts, P. and Korner, L., 1979, Ideas on sensory feedback in hand prostheses. Prosthetics and Orthotics International, 3, 157–142.
  • Micera, S., Rigosa, J., Carpaneto, J., Citi, L., Raspopovic, S., Guglielmelli, E., Benvenuto, A., Rossini, L., Di Pino, G., Cavallo, G., Carrozza, M.C., Cipriani, C., Hoffmann, K.P., Dario, P. and Rossini, P.M., 2009, On the control of a robot hand by extracting neural signals from the PNS: preliminary results from a human implantation. 31st Annual International Conference of the IEEE EMBS, Minneapolis, MN, USA, 2–6 September 2009, pp. 4586–4589.
  • Prior, R.E., 1976, Supplemental sensory feedback for the VA/NU myoelectric hand background and preliminary designs. United States Veterans Administration. Department of Medicine and Surgery. Bulletin of Prosthetics Research, 10–26, 170–191.
  • Dechev, N., Cleghorn, W.L. and Naumann, S., 2001, Multiple finger, passive adaptive grasp prothetic hand. Mechanism and Machine Theory, 36, 1157–1173.
  • Rothenberg, M.A. and Chapman, C.F., 2000, A Dictionary of Medical Terms, 4th edn. Barron's Medical Guides Hauppauge, New York.
  • Brown, B.H., Smallwood, R.H., Barber, D.C., Lawford, P.V. and Hose, D.R., 1999, Medical Physics and Biomedical Engineering. London: IOP;
  • Perez, C.A., Holzmann, C.A. and Jaeschke, H.E., 2000, Two-point vibrotactile discrimination related to parameters of pulse burst stimulus. Medical & Biological Engineering & Computing, 38, 74–79.
  • Times Magazine. Electric arms & hands. 1952. pp. 343–360.
  • Nightingale, J.M., 1982, Trends in engineering aids for neurological disability. Rehabilitation of the Neurological Patient In: L.S. Illis, E.M. Sedgwick and H.J. Glanville (Eds) Blackwell Scientific, Osney Mead, Oxfordpp. 343–360.
  • Nightingale, J.M., 1985, Microprocessor control of an artificial arm. Journal of Microcomputer Applications, 8, 167–173.
  • Todd, R.W., 1970, Adaptive control of a hand prosthesis. PhD thesis, University of Southampton.
  • Cotton, D.P.J, Cranny, A., White, N.M., Chappell, P.H. and Beeby, S.P., 2007, A novel thick-film piezoelelctric slip sensor for a prosthetic hand. IEEE Sensing Journal: Special Edition on Intelligent Sensors, 7, 752–761.
  • Cabibihan, J.J., Pattofatto, S., Jomâa, M., Benallal, A., Carrozza, M.C. and Dario, P., 2006, The conformance test for robotic/prosthetic fingertip skins. 1st IEEE/RAS-EMBS International Conference on Biomedical Robot Biomechatronics, BioRob, Pisa, Italy, 20–22 February 2006, pp. 561–566.
  • Denaro, B.A., Schoenberg, J.S.H., Self, B.P. and Bagley, A., 2001, Prosthetic arm monitoring system using a programmable interface controller. Biomedical Sciences Instrumentation, 37, 105–109.
  • Dorf, R.C., 2008, Modern Control Systems, 11th edn. Prentice Hall, Reading Massachusetts.
  • Brignell, J. and White, N., 1994, Intelligent Sensor Systems. London: IOP.
  • Yahud, S., Dokos, S., Morley, J.W. and Lovell, N.H., 2009, Experimental validation of a tactile sensor model for a robotic hand. 31st Annual International Conference of the IEEE EMBS, Minneapolis, MN, USA, 2–6 September 2009, pp. 2300–2303.
  • Carrozza, M.C., Massa, B., Micera, S., Lazzarini, R., Zecca, M. and Dario, P. 2002, The development of a novel prosthetic hand—ongoing research and preliminary results. IEEE/ASME Transactions on Mechtronics, 7, 108–114.
  • White, N.M. and Turner, J.D., 1997, Thick-film sensors: past, present and future. Measurement Science and Technology, 8, 1–20.
  • Cranny, A., Cotton, D.P.J., Chappell, P.H., Beeby, S.P. and White, N.M., 2005, Thick-film force and slip sensors for a prosthetic hand. Sensors and Actuators A: Physical, 123–124, 162–171.
  • Beccai, L., Roccella, S., Ascari, L., Valdastri, P., Sieber, A., Carrozza, M.C. and Dario, P., 2008, Development and experimental analysis of a soft compliant tactile microsensor for anthropomorphic artificial hand. IEEE/ASME Transactions on Mechtronics, 13, 158–168.
  • Valdastri, P., Roccella, S., Beccai, L., Cattin, E., Menciassi, A., Carrozza, M.C. and Dario, P., 2005, Characterization of a novel hybrid silicon three-axial force sensor. Sensors and Actuators A: Physical, 123–124, 249–257.
  • Beccai, L., Roccella, S., Arena, A., Valvo, F., Valdastri, P., Menciassi, A., Carrozza, M.C. and Dario, P., 2005, Design and fabrication of a hybrid silicon three-axial force sensor for biomechanical applications. Sensors and Actuators A: Physical, 120, 370–382.
  • Spinks, G.M., Wallace, G.G., Liu, L. and Zhou, D., 2003, Conducting polymers electromechanical actuators and strain sensors. Macromolecular Symposium, 192, 161–169.
  • Pons, J.L., Rocon, E., Ceres, R., Reynaerts, D., Saro, B., Levin, S. and Van Moorleghem, W., 2004, The MANUS-HAND dextrous robotics upper limb prosthesis: mechanical and manipuation aspects. Autonomous Robots, 16, 143–163.
  • Bergamasco, M. and Scattareggia Marchese, S., 1995, The mechanical design of the MARCUS prosthetic hand. IEEE International Workshop on Robot and Human Communication, Tokyo, 1985pp. 95–100.
  • Rodriguez-Cheu, L.E., Gonzalez, D. and Rodriguez, M., 2008, Result of a perceptual feedback of the grasping forces to prosthetic hand users. Proceedings of the 2nd Biennial IEEE/RAS-EMBS International Conference on Biomedical Robotics and Biomechatronics, Scottsdale, AZ, USA, 19–22 October 2008, pp. 901–906.
  • Rodriguez-Cheu, L.E. and Casals, A., 2006, Sensing and control of a prosthetic hand with myoelectric feedback. IEEE/RAS-EMBS International Conference on Biomedical Robot Biomechatronics, BioRob, Pisa, Italy, 20–22 February 2006, pp. 607–612.
  • Carpaneto, J., Micera, S., Zaccone, F., Vecchi, F. and Dario, P.A., 2003, Sensorized thumb for force closed-loop control of hand neuroprostheses. IEEE Transactions on Neural Systems and Rehabilitation Engineering, 11, 346–353.
  • Findlow, A.H., Kenney, L. and Howard, D., 2004, Can alternatives to the forceplate be used for accurate detection of key gait events? 9th Annual Conference of the International FES Society, Bournemouth, UK, September 2004, pp. 1–3.
  • Tura, A., Lamberti, C., Davalli, A. and Sacchetti, R., 1998, Experimental development of a sensory control system for an upper limb myoelectric prosthesis with cosmetic covering. Journal of Rehabilitation Research & Development, 35, pp. 14–26.
  • Kargov, A., Pylatiuk, C., Martin, J., Schulz, S. and Doderlein, L., 2004, A comparison of the grip force distribution in natural hands and in prosthetic hands. Disability and Rehabilitation, 26, 705–711.
  • Bloor, D., Donnelly, K., Hands, P.J., Laughin, P. and Lussey, D., 2005, A metal-polymer composite with unusual properties. Journal of Physics D: Applied Physics, 38, 2851–2860.
  • Bloor, D., Graham, A., Williams, E.J., Laughin, P. and Lussey, D., 2006, Metal-polymer composite with nanostructure filler particles and amplified physical properties. Applied Physics Letters, 88, 102–103.
  • Poulton, A., 2005, Quantum Tunnelling Composite: touch and force sensing applications. ISPO—Trent Prosthetic Symposium. Nottingham, UK: City Hospital; May 2005, p. 5.
  • Beeby, S., Ensell, G., Kraft, M. and White, N., 2004, MEMS Mechanical Sensors. Norwood, MA, USA: Artech House.
  • Chappell, P.H. and Elliott, J.A., 2003, Contact force sensor for artificial hands with a digital interface for a controller. Measurement Science and Technology, 14, 1275–1279.
  • Shashank, A., Tiwana, M.I., Redmond, S.J. and Lovell, N.H., 2009, Design, simulation and fabrication of a low cost capacitive tactile shear sensor for a robotic hand. 31st Annual International Conference of the IEEE EMBS, Minneapolis, MN, USA, 2–6 September 2009, pp. 4132–4135.
  • Persichetti, A., Vecchi, F. and Carrozza, M.C., 2007, Optoelectronic-based flexible contact sensor for prosthetic hand. Proceedings of the IEEE 10th International Conference on Rehabilitation Robotics, Noordwijk, The Netherlands, 12–15 June 2007, pp. 415–420.
  • Kyberd, P.J. and Chappell, P.H., 1992, Characterization of an optical and acoustic touch and slip sensor for autonomous manipulation. Measurement Science and Technology, 3, 969–975.
  • Wolpert, S., Laffely, A.J. and Hilton, J.A., 1991, Control of prosthetic motion using neuron-like elements. Medical Instrument Design139–148.
  • Ramos, A., Aggarwal, V., Chatterjee, A., Cho, Y., Rasmussen, R., O'Rourke, B., Acharya, S. and Thakor, N.V., 2007, Brain-computer interface for a prosthetic hand using local machine control and haptic feedback. Proceedings of the IEEE 10th International Conference on Rehabilitation Robotics, Noordwijk, The Netherlands, 12–15 June 2007, pp. 609–613.
  • Carrozza, M.C., Vecchi, F., Sebastiani, F., Cappiello, G., Roccella, S., Zecca, M., Lazzarini, R. and Dario, P., 2003, Experimental analysis of an innovative prosthetic hand with proprioceptive sensors. Proceedings of the IEEE International Conference on Robotics and Automation, Taipei, Tsiwao, 14–19 September 2003: 2230–2235.
  • Kyberd, P.J. and Chappell, P.H., 1993, A force sensor for automatic manipulation based on the Hall effect. Measurement Science and Technology, 4, 281–287.
  • Light, C.M.L., 2000, An intelligent hand prosthesis and evaluation of pathological and prosthetic hand function. PhD thesis. University of Southampton
  • Dominguez-Lopez, J.A., Damper, R.I., Crowder, R.M. and Harris, C.J., 2006, Intelligent neurofuzzy control of a robotic gripper. In: Innovations in Robot Mobility and Control. Srikanta Patnaik, C. Lakhmi, Spyros G. Tzafestas, Germano Resconi and Amit Konar Bellacasa, (Eds) Berlin: Springer-Verlag; pp. 155–199.
  • Kyberd, P.J., 1990, Algorithmic control of a multifunctional hand prosthesis. PhD thesis. University of Southampton.
  • Fishel, J.A., Santos, V.J. and Loeb, G.E., 2008, A robust micro-vibration sensor for biomimetic fingertips. Proceedings of the 2nd Biennial IEEE/RAS-EMBS International Conference on Biomedical Robotics and Biomechatronics, Scottsdale, AZ, USA, 19–22 October 2008, pp. 659–663.
  • Luo, Z., Yang, G., 2005, Study of myoelectric prostheses based on fuzzy control and touch feedback. International Conference on Neural Networks and Brain, Oct 13-15 Beijing China, 1815–1819.
  • Luo, Z.-Z. and Wang, R.-C., 2005, Study of myoelectric bionic artificial hand with tactile sense. Chinese Journal of Sensors and Actuators, 18, 23–27.
  • Jiang, M., Wang, R., Luo, Z., Jin, D. and Zhang, J., 2004, Myoelectric prosthetic hand with tactile and slip feedback functions. Qinghua Daxue Xuebao/Journal of Tsinghua University, 44, 1051–1053.
  • Cranny, A., Cotton, D.P.J., Chappell, P.H., Beeby, S.P. and White, N.M., 2005, Thick-film force and slip sensors for a prosthetic hand. Measurement Science and Technology, 16, 931–941.
  • Mingrino, A., Paolo, D. and Angelo, S., 1993, Hand prosthesis with slippage control by tactile sensors. Proceedings of the Annual Conference on Engineering in Medicine and Biology, 15, 1276–1277.
  • Mingrino, A., Bucci, A., Magni, R. and Dario, P., 1994, Slippage control in hand prostheses by sensing grasping forces and sliding motion. Proceedings of the IEEE RSG GI International Conference on Intelligent Robots and Systems, Vol 3 12-16 Sept, 1803–1809.
  • Kyberd, P.J. and Chappell, P.H., 1992, Object-slip detection during manipulation using a derived force vector. Mechatronics, 2, 1–13.
  • Stojiljkovic, Z. and Clot, J., 1977, Integrated behavior of artificial skin. IEEE Transactions on Biomedical Engineering, BME-24, 4, pp. 396–399.
  • Gavrilova, I., Feustel, M., Scheibner, W., Schilling, C. and Witte, H., 2008, Sensorised compliant structures with adjustable stiffness. Proceedings of the 6th IASTED International Conference on Biomedical Engineering, BioMED, February 13-15, Innsbruck, Austria126–129.
  • Graham, D.F., 1993, Artificial hand and digit therefore. US Patent 07/483,180pp. 1–16.
  • Edin, B.B., Ascari, L., Beccai, L., Roccella, S., Cabibihan, J.-J. and Carrozza, M.C., 2008, Bio-inspired sensorization of a biomechatronic robot hand for the grasp-and-lift task. Brain Research Bulletin, 75, 785–795.
  • Dario, P., Licazzarini, R. and Magni, R., 1996, An integrated miniature fingertip sensor. 2–4 Oct Seventh International Symposium on Micromehatronics and Human Science, Nagoya Aichi Japan91–97.
  • Cho, Y., Liang, K., Folowosele, F., Miller, B. and Thakor, N.V., 2007, Wireless temperature sensing cosmesis for prosthesis. Proceedings of the IEEE 10th International Conference on Rehabilitation Robotics, Noordwijk, The Netherlands, 12–15 June 2007, pp. 672–677.
  • Liu, C., Engel, J., Chen, J., Chen, N., Pandya, S., Yang, Y., Tucker, C., Coombs, S., Humphrey, J. and Bleckmann, H., 2006, Polymer micro- and nano-scale fabrication technology development for bioinspired sensing. 1st IEEE International Conference on Nano/Micro Engineering in Molecular Systems, NEMS, 2006, 18-21 Jan, Zhuhai, China, pp. 1470–1473.
  • Wettels, N., Santos, V.J., Johansson, R.S. and Loeb, G.E., 2008, Biomimetic tactile sensor array. Advance Robotics, 22, pp. 829–849.
  • Khushaba, R.N., Al-Ani, A. and Al-Jumaily, A., 2007, Swarm intelligence based dimensionality reduction for myoelectric control. 3rd International Conference on Intelligent Sensors, Sensor Networks and Information Processing, Melbourne, Australia, 3–6 December 2007, pp. 577–582.
  • Nakamura, T., Kita, K., Kato, R., Matsushita, K. and Hiroshi, Y., 2009, Control strategy for a myoelectric hand: measuring acceptable time delay in human intention discrimination. 31st Annual International Conference of the IEEE EMBS, Minneapolis, MN, USA, 2–6 September 2009, pp. 5044–5047.
  • Liu, J., 2006, Adaptive hand grasp in a multi-digit prosthesis with active perception. PhD thesis. Open University
  • Biddiss, E. and Chau, T., 2008, Dielectric elastomers as actuators for upper limb prosthetics: Challenges and opportunities. Medical Engineering & Physics, 30, 403–418.
  • Muridan, N., Chappell, P.H., Cotton, D.P.J., Cranny, A. and White, N.M., 2009, Detection of slip from multiple sites in an artificial finger. Sensors & their Applications XV, IOP. Edinburgh, Scotland: 2009, pp. 1–6.

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