Umar Asif and Javaid Iqbal
[1] ¨O. Ekeberg, M. Bl¨umel, and A. B¨uschges, Dynamic simulationof insect walking, Arthropod Structure and Development, 33,2004, 287 (14 pages). [2] R.J. Wood, The first takeoff of a biologically inspired at-scalerobotic insect, IEEE Transactions on Robotics, 24(2), 2008,341–347. [3] D. Kuhn, M. Rommermann, N. Sauthoff, F. Grimminger,and F. Kirchner, Concept evaluation of a new biologicallyinspired robot LittleApe, IEEE/RSJ International Conferenceon Intelligent Robots and Systems 2009 (IROS ’09), October10–15, 2009, 589–594. [4] S. Yu, S. Ma, B. Li, and Y. Wang, An amphibious snake-likerobot: Design and motion experiments on ground and in water,International Conference on Information and Automation 2009(ICIA ’09), June 22–24, 2009, 500–505. [5] M. Konyev, F. Palis, Y. Zavgorodniy, A. Melnikov, A. Rudiskiy,A. Telesh, U. Sschmucker, and V. Rusin, Walking robot anton:Design, simulation, experiments, International Conference onClimbing and Walking Robots and the Support Technologiesfor Mobile Machines 2008 (CLAWAR 2008), September 8–10,2008, 922–929. [6] A. Roennau, T. Kerscher, and R. Dillmann, Design and kine-matics of a biologically-inspired leg for a six-legged walkingmachine, Proceedings of the 2010 3rd IEEE RAS & EMBS In-ternational Conference on Biomedical Robotics and Biomecha-tronics, The University of Tokyo, Tokyo, Japan, September26–29, 2010. [7] M.S. Erden, K. Leblebicioglu, Free gait generation with rein-forcement learning for a six-legged robot, Robotics and Au-tonomous Systems, 56(3), 2008, 199–212. [8] P. Arena, L. Fortuna, M. Frasca, and L. Patan´e, Sensoryfeedback in locomotion control, Dynamical Systems, Wave-Based Computation and Neuro-Inspired Robots, 500(Part II),2008, 143–158. [9] J. Bo, C. Cheng, L. Wei, and L. Xiangyun, Design and config-uration of a hexapod walking robot, 2011 Third InternationalConference on Measuring Technology and Mechatronics Au-tomation, ICMTMA, Shanghai, China, January 6–7, 1, 2011,863–866. [10] R. Altendorfer, N. Moore, and H. Komsuoglu, RHex: Abiologically inspired hexapod runner, Autonomous Robots,11(3), 2001, 207–213. [11] W.A. Lewinger and R.D. Quinn, A hexapod walks over irregularterrain using a controller adapted from an insect’s nervoussystem, The 2010 IEEE/RSJ International Conference onIntelligent Robots and Systems, Taipei, Taiwan, October 18–22,2010. [12] B. Gassmann, L. Frommberger, and K. Berns, Real-time3D map building for local navigation of a walking robot in47unstructured terrain, Proceedings of IEEE/RSJ InternationalConference on Intelligent Robots and Systems, Las Vegas, NV,2003, 2185–2190. [13] D. Belter, P. Labecki, and P. Skrzypczynski, Map-based adap-tive foothold planning for unstructured terrain walking, 2010IEEE International Conference on Robotics and Automation,Anchorage, Alaska, May 3–8, 2010. [14] S. Skaff, G. Kantor, and D. Maiwand, Inertial navigation andvisual line following for a dynamical hexapod robot, Proceedingsof IEEE/RSJ International Conference on Intelligent Robotsand Systems, Las Vegas, NV, 2003, 1808–1813. [15] Y. Go, X. Yin, and A. Bowling, Navigability of multi-leggedrobots, IEEE/ASME Transactions on Mechatronics, 11(1),2006, 1–8. [16] W.A. Lewinger and R.D. Quinn, BILL-LEGS: Low computa-tion emergent gait system for small mobile robots, Proceedingsof IEEE International Conference on Robotics and Automation(ICRA’08), Pasadena CA, May 11–23, 2008, 251–256. [17] L. Mu and R.E. Ritzmann, Interaction between descendinginput and thoracic reflexes for joint coordination in cockroach.II. Comparative studies on tethered turning and searching,The Journal of Comparative Physiology A, 194, 2008, 299–312. [18] K. Johns and T. Taylor, Professional microsoft robotics devel-oper studio (Indianapolis, IN: Wiley Publishing, 2008). [19] F. Delcomyn and M.E. Nelson, Architectures for a biomimetichexapod robot, Robotics and Autonomous Systems, 30, 2000,5–15. [20] R.D. Quinn, G.M. Nelson, R.J. Bachmann, D.A. Kingsley,J. Offi, and R.E. Ritzmann, Insect designs for improvedrobot mobility. Proceedings of 4th International Conference onClimbing and Walking Robots, Berns and Dillmanneds, 2001,69–76. [21] D. Spenneberg, F. Kirchner, and H. Zhang, The bio-inspiredscorpion robot: Design, control and lessons learned, Climbingand Walking Robots, Towards New Applications, 2007, 197–218, ISBN: 978-3-902613-16-5. [22] S. Bartsch and S. Planthaber, Scarabaeus: A walking robotapplicable to sample return missions, Eurobot 2008, Ser. LectureNotes in Computer Science, Springer, Heidelberg, 2008,178–183. [23] C. Chen, B. Jin, and W. Li, Design of a mammal-like hexapodwalking robot, Proceedings of the 7th International Confer-ence on Fluid Power Transmission and Control (ICFP 2009),Hangzhou, P.R. China, 2009. [24] C. Birkenhofer and R. Dillmann, Hierarchical control archi-tecture for a multi-segmented inspection robot, Proceedings ofthe Twelfth International Conference on Climbing and Walk-ing Robots and the Support Technologies for Mobile Machines,Istanbul, Turkey, 2009. [25] J. Paskarbeit, J. Schmitz, M. Schilling, and A. Scheider, Layoutand construction of a hexapod robot with increased mobility,Proceedings of the 2010 3rd IEEE RAS & EMBS InternationalConference on Biomedical Robotics and Biomechatronics, TheUniversity of Tokyo, Tokyo, Japan, September 26–29, 2010. [26] K. Walas, D. Belter, A. Kasi´nski, Control and environmentsensing system for a six-legged robot, Journal of Automation,Mobile Robotics and Intelligent Systems, 2(3), 2008, 26–31. [27] U. Asif and J. Iqbal, Modeling and simulation of biologicallyinspired hexapod robot using SimMechanics, Proceedings ofthe IASTED International Conference, Robotics (Robo 2010),Phuket, Thailand, November 24–26, pp. 128–135. [28] U. Asif and J. Iqbal, Rapid prototyping of a gait genera-tion method using real-time hardware-in-loop simulation, In-ternational Journal of Modelling, Simulation, and ScientificComputing, 2(2), 2011, 1–19. [29] U. Asif and J. Iqbal, Motion planning using an impact-basedhybrid control for trajectory generation in adaptive walking,International Journal of Advanced Robotic Systems, 8(4), 2011. [30] G. Jianhua, Design and kinematic simulation for six-DOF legmechanism of hexapod robot, Proceedings of IEEE Interna-tional Conferebce on Robotics and Biomimetics, 2006. [31] D. Belter, A. Kasi´nski, and P. Skrzypczy´nski, Evolving feasiblegaits for a hexapod robot by reducing the space of possiblesolutions, Proceedings of IEEE International Conference onIntelligent Robots and Systems, Nice, France, 2008, 2673–2678. [32] V. Durr, J. Schmitz, and H. Cruse, Behavior-based modeling ofhexapod locomotion: Linking biology and technical application,Arthropod Structure and Development, 33, 2004, 237–250. [33] G. Wang, L. Zhang, D. Chen, D. Liu, and X. Chen, Mod-eling and simulation of multi-legged walking machine proto-type, Proceedings of International Conference on MeasuringTechnology and Mechatronics Automation, 2007. [34] S. Ali, A. Moosavian, and A. Dabiri, Dynamics and planningfor stable motion of a hexapod robot, 2010 IEEE/ASME In-ternational Conference on Advanced Intelligent Mechatronics,Montreal, Canada, July 6–9, 2010. [35] X. Ke, Z. Gong, and J. Wu, Study on walking stabilities of abiped robot in considering the distribution of ground reactingforces, Proceedings of the 2006 IEEE International Conferenceon Mechatronics and Automation, Luoyang China, June 25–28,2006. [36] K. Nishiwaki and S. Kagami, Inertial measurement systemfor biped robots that takes scheduled centrifugal effect intoconsideration, The 9th Annual IEEE Conference on Sensors,Kona, HI, 2010.
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