Dynamics and stability of lateral plane locomotion on inclines.

[1]  R. Full,et al.  Energetics of ascent: insects on inclines. , 1990, The Journal of experimental biology.

[2]  T. McGeer,et al.  Passive bipedal running , 1990, Proceedings of the Royal Society of London. B. Biological Sciences.

[3]  R. Blickhan,et al.  Leg design in hexapedal runners. , 1991, The Journal of experimental biology.

[4]  R. Blickhan,et al.  Dynamic and static stability in hexapedal runners. , 1994, The Journal of experimental biology.

[5]  J. T. Watson,et al.  Leg kinematics and muscle activity during treadmill running in the cockroach, Blaberus discoidalis : I. Slow running , 1997, Journal of Comparative Physiology A.

[6]  R. Full,et al.  Three-dimensional kinematics and limb kinetic energy of running cockroaches. , 1997, The Journal of experimental biology.

[7]  R. Full,et al.  The role of the mechanical system in control: a hypothesis of self-stabilization in hexapedal runners , 1999 .

[8]  Philip Holmes,et al.  Mechanical models for insect locomotion: dynamics and stability in the horizontal plane I. Theory , 2000, Biological Cybernetics.

[9]  Philip Holmes,et al.  Mechanical models for insect locomotion: dynamics and stability in the horizontal plane – II. Application , 2000, Biological Cybernetics.

[10]  H. Benjamin Brown,et al.  c ○ 2001 Kluwer Academic Publishers. Manufactured in The Netherlands. RHex: A Biologically Inspired Hexapod Runner ∗ , 2022 .

[11]  P. Holmes,et al.  Mechanical models for insect locomotion: stabilty and parameter studies , 2001 .

[12]  Philip Holmes,et al.  Dynamics and stability of legged locomotion in the horizontal plane: a test case using insects , 2002, Biological Cybernetics.

[13]  R. Full,et al.  Dynamic stabilization of rapid hexapedal locomotion. , 2002, The Journal of experimental biology.

[14]  Jonathan E. Clark,et al.  Fast and Robust: Hexapedal Robots via Shape Deposition Manufacturing , 2002 .

[15]  Roger D. Quinn,et al.  Descending control of body attitude in the cockroach Blaberus discoidalis and its role in incline climbing , 2004, Journal of Comparative Physiology A.

[16]  Philip Holmes,et al.  Dynamics and stability of insect locomotion: a hexapedal model for horizontal plane motions , 2004, Biological Cybernetics.

[17]  Fritz-Olaf Lehmann,et al.  Walking on inclines: energetics of locomotion in the ant Camponotus , 2005, Journal of Experimental Biology.

[18]  R. Full,et al.  Dynamics of geckos running vertically , 2006, Journal of Experimental Biology.

[19]  Noah J. Cowan,et al.  Task-level control of the lateral leg spring model of cockroach locomotion , 2006 .

[20]  R. Full,et al.  Dynamics of rapid vertical climbing in cockroaches reveals a template , 2006, Journal of Experimental Biology.

[21]  Philip Holmes,et al.  Three-dimensional Translational Dynamics and Stability of Multi-legged Runners , 2006, Int. J. Robotics Res..

[22]  Philip J. Holmes,et al.  A hexapedal jointed-leg model for insect locomotion in the horizontal plane , 2007, Biological Cybernetics.

[23]  Tao Chen,et al.  Design of a Bio-inspired Dynamical Vertical Climbing Robot , 2007, Robotics: Science and Systems.

[24]  R. Wehner,et al.  Walking on inclines: how do desert ants monitor slope and step length , 2008, Frontiers in Zoology.

[25]  Daniel E. Koditschek,et al.  Biologically inspired climbing with a hexapedal robot , 2008 .

[26]  R J Full,et al.  Neuromechanical response of musculo-skeletal structures in cockroaches during rapid running on rough terrain , 2008, Journal of Experimental Biology.