Live line work mechanical arm autonomous obstacle avoidance path planning method based on movement primitive libraries

Abstract

The invention provides a live line work mechanical arm autonomous obstacle avoidance path searching method based on movement primitive libraries. A complete mechanical arm kinematic model and a mechanical arm simplified kinematic model are built, and a mechanical arm working environment is built; the movement primitive libraries are designed in a classified mode, and corresponding movement primitives are designed for the various libraries to serve as library members; distance calculation functions between a mechanical arm and a target point and between the mechanical arm and an obstacle are built in a classified mode, and the danger area threshold value and the target point arriving precision threshold value are set; a heuristic function hd(x) in the Cartesian space and a heuristic function hc(x) in the articulate space, and a heuristic rule are created, and heuristic searching is achieved; and the current pose and the expected pose of the mechanical arm and the Cartesian space distance of the obstacle are calculated, and a path is planned according to the set judgment condition. Mechanical arm operation scene information can be built rapidly and precisely, it is guaranteed that the obstacle avoidance path searching result has suboptimality and completeness, the path can be planned rapidly under the premise of meeting the kinematic constraint, and the stationarity of the mechanical arm movement process is guaranteed.

Description

technical field [0001] The invention belongs to the field of live working robots, in particular to three-dimensional reconstruction of a multi-degree-of-freedom mechanical arm working environment and autonomous dynamic obstacle avoidance path planning, in particular to a method for autonomous live working mechanical arm path planning. Background technique [0002] At present, the high-voltage live operation method in my country is still in the stage of manual operation and remote operation of the robotic arm. During manual operation, the technicians are exposed to the high-voltage environment, which is extremely dangerous; the remote operation needs to ensure that the robotic arm is not connected to the tower element during the operation. The device collides with only one wire at most, which places high demands on the ability of technicians in on-site observation, prediction and fine operation. [0003] The C-space method is a classic and effective algorithm for solving the p...

AI Technical Summary

Problems solved by technology

The path planning algorithm based on sampling solves the problem of huge amount of calculation in high-dimensional C-space, but its performance depends on the sampling method and the connection mode between nodes and has randomness; when the artificial potential field method is used in high-dimensional C-space, the calculation The problems of large quantities and local minima have not been well solved; the heuristic search algorithm ensures the suboptimal path and the completeness of the search by establishing a cost equation, but for the multi-degree-of-freedom manipulator problem, the traditional heuristic search algorithm The huge amount of calculation makes it difficul

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