Geckos demonstrate flexible and agile locomotion on diverse terrains and surfaces. The lateral undulation pattern referring to the trunk-limbs coordination gives animals advantages in terms of motion speed, dynamical stability, and highly efficient movement. Quantitative analysis of the angular variables of the trunk and limbs was proposed to compare the kinematics of Gekko gecko on the vertical plane in the standing wave and traveling wave of lateral undulation patterns. Thirteen angular variables were measured to illustrate the kinematic characteristics of trunk flexion, girdles rotation, scapula rotation, trunk deflection, femoral/humeral protraction-retraction, abduction-adduction, and rotation around their axes, and knee/elbow flexion-extension. One-way analysis of variance (ANOVA) tested for mean differences between patterns for maximum value, minimum value, and range value of each angular variable. The geckos adapted to the changes in locomotion velocity by dynamically adjusting the joints angular variables. Twenty of the thirty-nine angular values showed a significant pattern effect that presented the variation of angular values or the timing of the peak of the angle curve in two different lateral undulation patterns. The climbing stability of a gecko is tightly associated with the coordination between the body and the limbs.
Keywords: Gekko gecko; angular variables; kinematic model; lateral undulation pattern; speed modulation.
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