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General Lagrange-Type Jacobian Inverse for Nonholonomic Robotic Systems

Krzysztof Tchoń, Joanna Ratajczak

发表年份
2017
引用次数
15

摘要

This paper discusses the nonholonomic robotic systems whose motion constraints assume the Pfaffian form, and the equations of motion are represented by driftless control systems with outputs. By reference to the end point map of such a control system, we define the system's Jacobian and study Jacobian motion-planning algorithms. A new Lagrange-type Jacobian inverse, referred to as the General Lagrangian Jacobian Inverse (GLJI), is designed as the solution of an optimal control problem with a Lagrange-type objective function. Singularities of GLJI are examined. A special choice of the objective function illustrates features of GLJI. A new motion-planning algorithm based on GLJI is proposed. Theoretical arguments are illustrated with a motion-planning problem of a space robot.

关键词

Jacobian matrix and determinantNonholonomic systemInverseType (biology)Control theory (sociology)Computer scienceRoboticsLagrange multiplierRobotMathematics

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