Towards a neuromechanical model for insect locomotion: hybrid dynamical systems

    2005, Volume 10, Number 2, pp.  193-225

    Author(s): Ghigliazza R. M., Holmes P. J.

    We develop and analyze a single-degree-of-freedom model for multilegged locomotion in the horizontal (ground) plane. The model is a hybrid dynamical system incorporating rudimentary motoneuronal activation and agonist-antagonist Hill-type muscle pairs that drive a point mass body along a line. Composition of the smooth stance phase dynamics with various discrete lift-off and touch-down protocols result in Poincaré stride-to-stride maps, and our extreme simplification of the full dynamics permits relatively complete phase plane analysis of existence and stability of periodic gaits. We use these to perform parameter studies that provide guidelines for the construction of stable periodic orbits with appropriate force and velocity signatures.
    Keywords: hybrid dynamical systems, insect gaits, muscle models, periodic orbits, phase plane analysis, stability
    Citation: Ghigliazza R. M., Holmes P. J., Towards a neuromechanical model for insect locomotion: hybrid dynamical systems , Regular and Chaotic Dynamics, 2005, Volume 10, Number 2, pp. 193-225


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