Development of a novel type of microrobot for biomedical application

Anderson JM, Triantafyllou MS, Kerrebrock PA (1997) Concept design of a flexible-hull unmanned undersea vehicle. In: Proceedings of the international offshore and polar engineering conference, pp 82–88

Barrett D, Yue DKP, Grosenbaugh, Wolfgang MJ (1999) Drag reduction in fish-like locomotion. J Fluid Mech 392:183–212

Bone Q, Marshall NB (1982) Biology of fishes. Blackie and Son Limited, London, 167 p

Domenici P, Blake RW (1997) The kinematics and performance of fish fast-start swimming. J Exp Biol 200(8):1165–1178

Fearing L (1992) Micro structures and micro actuator for implementing submillimetres robots, precision sensors, actuators and systems. Kluwer, Dordrecht, pp 39–72

Fukuda T, Kawamoto A, Arai F, Matsuura H (1994) Mechanism and swimming experiment of micro mobile robot in water. Proc IEEE Int Conf Robot Autom 1:814–819

Fukuda T, Kawamoto A, Arai F, Matsuura H (1995) Steering mechanism of underwater micro mobile robot. Proc IEEE Int Conf Robot Autom 1:363–368

Guo S, Pan Q (2007) Mechanism and control a novel type of microrobot for biomedical application. In: Proceedings of the 2007 IEEE international conference on robotics and automation, pp 187–192, Roma, Italy

Gray J (1936) Studies in animal locomotion. VI. The propulsive powers of the dolphin. J Exp Biol 13:192–199

Guo S, Pan Q (2006) Design and control of a novel type of microrobot moving in pipe. In: Proceedings of the 2006 IEEE international conference on mechatronics and automation, pp 649–653, China

Guo S, Fukuda T, Kosuge K, Arai F, Oguro K, Negoro M (1995) Micro catheter system with active guide wire. In: Proceedings of the 1995 IEEE international conference on robotic and automation, vol 1, Nagoya, Japan, pp 79–84

Guo S, Fukuda T, Kato N, Oguro K (1998) Development of underwater micro robot using ICPF actuator. In: Proceedings of the 1998 IEEE international conference on robotics and automation, Belgium, pp 1829–1834

Guo S, Sugimoto K, Hata S, Su J, Oguro K (2000) A new type of underwater fish-like micro robot. In: Proceedings of the 2000 IEEE international conference on intelligent robotics and systems, Kagawa, Japan, pp 867–862

Guo S, Fukuda T, Asaka K (2002) Fish-like underwater micro robot with 3 DOF. In: Proceedings of the 2002 IEEE international conference on robotics and automation, Washington, DC, pp 738–743

Guo S, Sasaki Y, Fukuda T (2002) A fin type of microrobot in pipe. Proceedings of the 2002 international symposium on micro machine and human science (MHS’ 22), Nagoya, Japan, pp 93–98

Guo S, Fukuda T, Asaka K (2003) A new type of fish-like underwater microrobot. IEEE ASME Trans Mechatron 8(1):35–40

Guo S, Sasaki Y, Fukuda T (2003) A new kind of microrobot in pipe using driving fin. In: IEEE/ASME international conference on advanced intelligent mechatronics (AIM 2003), Kobe, Japan, pp 667–702

Guo S, Sakamoto J, Pan Q (2005) A novel type of microrobot for biomedical application. In: IEEE/RSJ international conference on intelligent robots and systems (IROS2005), Canada, pp 2265–2270

Guo S, Pan Q, Khamesee MB (2006) Development of a novel type of microrobot for biomedical application. ASME/JSME joint conference (MIPE 2006), Santa Clara, CA, USA

Guo S, Pan Q, Zhang W (2006) Characteristics of the microrobot moving in the vertical pipe. Proceedings of the 6th World Congress on Control and Automation, pp 9282–9286, China

Harper KA, Berkemeier MD, Grace S (1998) Modeling the dynamics of spring-driven oscillating-foil propulsion. IEEE J Ocean Eng 23:285–296

Hirose Y, Shiga T, Okada A, Kurauchi T (1992) Gel actuators driven by an electric field. In: Proceedings of the 3rd international symposium on micro machine and human science, pp 21–26

Laurent G, Piat E (2001) Efficiency of swimming microrobots using ionic polymer metal composite actuators. In: Proceedings of 2001 IEEE international conference on robotics and automation, pp 3914–3919

Maddock L, Bone Q et al (1994) Mechanics and physiology of animal swimming. Cambridge University Press, Cambridge

Mojarrad M, Shahinpoor M (1997) Biomimetic robot propulsion using polymeric artificial muscles. In: Proceedings of the 1997 IEEE international conference on robotics and automation, New Mexico, USA, pp 2152–2157

Oguro K, Asaka K, Takenaka H (1993) Polymer film actuator driven by a low voltage. In: Proceedings of the 4th international symposium on micro machine and human science, Japan, pp 39–40

Osada Y, Okuzaki H, Hori H (1992) A polymer gel of electrically driven moiety. Nature 355:242–244

Pan Q, Guo S (2006) A novel type of microrobot moving in the vertical pipe. In: The 24th annual conference of the robotics society of Japan, 2G22, Japan

Sendoh M, Yamazaki A, Ishiyama K (2000) Wireless controlling of the swimming direction of the spiral-type magnetic micro-machines. Trans IEEE Jpn 120-A:301–306

Sfakiotakis M, Lane DM, Davies JBC (1999) Review of fish swimming modes for aquatic locomotion. IEEE J Ocean Eng 24:237–252

Tadokoro S, Takamori T et al (1998) Development of a distributed actuation device consisting of soft gel actuator elements. In: Proceedings of 1998 IEEE international conference on robotics and automation, Leuven, Belgium, pp 2155–2160

Tadokoro S, Yamagami S et al (1999) Multi-DOF device for soft micromanipulation consisting of soft gel actuator elements. In: Proceedings of the 1999 IEEE international conference on robotics and automation, Detroit, MI, USA, pp 2177–2182

Tadokoro S, Yamagami S, Takamori T (2000) An actuator model of ICPF for robotic applications on the basis of physicochemical hypotheses. In: Proceedings of the 2000 IEEE international conference on robotics and automation, Seoul, Korea, pp 1340–1345

Triantafyllou MS, Triantafyllou GS (1995) An efficient swimming machine. Sci Am 272(3):64–70