Abstract
This paper presents a reconfigurable biomimetic robot. The robot is able to mimic a kind of huntsman spiders which can crawl and roll by reforming its legs. Mechanical design, control architecture, motor selection targeting on miniaturization are presented in detail. Due to the reconfigurability of the legs, the robot can recover to the standing state from sideway and upside-down fallen states with the help of IMU. Moreover, the vision system enables the robot to change the locomotion by perceiving different terrains autonomously. The potential fields of applications of the proposed robot would be military, search and rescue, entertainment, etc.
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Armour, R., Paskins, K., Bowyer, A., Vincent, J., Megill, W.: Jumping robots: a biomimetic solution to locomotion across rough terrain. Bioinspir. Biomim. 2, S65–S82 (2007)
Crespi, A., Karakasiliotis, K., Guignard, A., Ijspeert, A.J.: Salamandra robotica II: an amphibious robot to study salamander-like swimming and walking gaits. IEEE Trans. Robot. 29, 308–320 (2013)
Phipps, C.C., Shores, B.E., Minor, M.A.: Design and quasi-static locomotion analysis of the rolling disk biped hybrid robot. IEEE Trans. Robot. 24, 1302–1314 (2008)
Webb, B., Consilvio, T.: Biorobotics. MIT Press, Cambridge (2001)
Li, M., Jiang, Z., Wang, P., Sun, L., Ge, S.S.: Control of a quadruped robot with bionic springy legs in trotting gait. J. Bionic Eng. 11, 188–198 (2014)
Ho, T., Choi, S., Lee, S.: Development of a biomimetic quadruped robot. J. Bionic Eng. 4, 193–199 (2007)
Shi, L., Guo, S., Mao, S., Yue, C., Li, M., Asaka, K.: Development of an amphibious turtle-inspired spherical mother robot. J. Bionic Eng. 10, 446–455 (2013)
Chen, J., Liu, Y., Zhao, J., Zhang, H., Jin, H.: Biomimetic design and optimal swing of a hexapod robot Leg. J. Bionic Eng. 11, 26–35 (2014)
Chen, S.C., Huang, K.J., Chen, W.H., Shen, S.Y., Li, C.H., Lin, P.C.: Quattroped: a leg-wheel transformable robot. IEEE/ASME Trans. Mech. 19, 730–742 (2014)
Kovač, M., Schlegel, M., Zufferey, J.C., Floreano, D.: Steerable miniature jumping robot. Auto. Robots. 28, 295–306 (2010)
Chadil, N., Phadoongsidhi, M., Suwannasit, K., Manoonpong, P., Laksanacharoen, P.: A reconfigurable spherical robot. In: Proceedings of IEEE International Conference on Robotics and Automation, pp. 2380–2385, Shanghai, China (2011)
Sun, Y., Ma, S.: Decoupled kinematic control of terrestrial locomotion for an epaddle-based reconfigurable amphibious robot. In: Proceedings of IEEE International Conference on Robotics and Automation, pp. 1223–1228, Shanghai, China (2011)
King, R.S.: BiLBIQ: A Biologically Inspired Robot with Walking and Rolling Locomotion: Springer, Berlin (2013)
Sinha, A., Tan, N., Mohan, R.E.: Terrain perception for a reconfigurable biomimetic robot using monocular vision. Robot. Biomim. 1 (2014)
App Inventor. http://ai2.appinventor.mit.edu
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This work was fully supported by the Temasek Project (IGDST1301018) at SUTD, Singapore.
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Tan, N., Mohan, R.E., Elangovan, K. (2016). A Bio-inspired Reconfigurable Robot. In: Ding, X., Kong, X., Dai, J. (eds) Advances in Reconfigurable Mechanisms and Robots II. Mechanisms and Machine Science, vol 36. Springer, Cham. https://doi.org/10.1007/978-3-319-23327-7_42
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DOI: https://doi.org/10.1007/978-3-319-23327-7_42
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