论文信息 - Trajectory planning of robot manipulators by using algebraic and trigonometric splines

Trajectory planning of robot manipulators by using algebraic and trigonometric splines

In this paper, the use of algebraic and trigonometric splines for the trajectory planning of robot manipulators is discussed. First, the two methods are analyzed and compared in detail; then, a strategy, which involves a combined use of the two schemes to perform sudden changes in a predefined trajectory (e.g. in case of obstacle avoidance) is proposed. Results show that the main interest in using trigonometric splines lies especially in the task of connecting two separate pieces of cubic splines, as overshoots are significantly reduced, although the continuity of velocity, acceleration and (in case) jerk is guaranteed.

Antonio Visioli

[1] Dan Simon,et al. Suboptimal Robot Joint Interpolation Within User-Specified Knot Tolerances , 1993, J. Field Robotics.

[2] Dan Simon,et al. Optimal trigonometric robot joint trajectories , 1991, Robotica.

[3] Dan Simon,et al. Computational Complexity and Path Error Analyses of Trigonometric Joint Trajectories , 1992 .

[4] Dan Simon,et al. Efficient Cartesian path approximation for robots using trigonometric splines , 1994, Proceedings of 1994 American Control Conference - ACC '94.

[5] John J. Craig,et al. Introduction to Robotics Mechanics and Control , 1986 .

[6] A. Piazzi,et al. Global minimum-time trajectory planning of mechanical manipulators using interval analysis , 1998 .

[7] Aurelio Piazzi,et al. Global minimum-jerk trajectory planning of robot manipulators , 2000, IEEE Trans. Ind. Electron..

[8] Dan Simon,et al. A trigonometric trajectory generator for robotic arms , 1993 .

[9] K. Doty,et al. On-Line Polynomial Trajectories for Robot Manipulators , 1985 .

[10] C. Lin,et al. Formulation and optimization of cubic polynomial joint trajectories for industrial robots , 1983 .