TITLE:
Circular Obstacle Avoidance Control of the Compass-Type Biped Robot Based on a Blending Method of Discrete Mechanics and Nonlinear Optimization
AUTHORS:
Tatsuya Kai
KEYWORDS:
Discrete Mechanics, Compass-Type Biped Robot, Obstacle Avoidance Control, Nonlinear Optimization, Zero-Order Hold Input
JOURNAL NAME:
International Journal of Modern Nonlinear Theory and Application,
Vol.4 No.3,
August
7,
2015
ABSTRACT: This paper considers an obstacle avoidance control problem for the compass-type biped robot, especially circular obstacles are dealt with. First, a sufficient condition such that the swing leg does not collide the circular obstacle is derived. Next, an optimal control problem for the discrete compass-type robot is formulated and a solving method of the problem by the sequential quadratic programming is presented in order to calculate a discrete control input. Then, a transformation method that converts a discrete control input into a continuous zero-order hold input via discrete Lagrange-d’ Alembert principle is explained. From the results of numerical simulations, it turns out that obstacle avoidance control for the continuous compass-type robot can be achieved by the proposed method.