An improved PSO algorithm for time-optimal trajectory planning of Delta robot in intelligent packaging

Autor:	Guo-Hua Cao, Yong-Yin Qu, Cheng Liu, Yanming Cheng
Rok vydání:	2019
Předmět:	0209 industrial biotechnology Angular acceleration Computer science Angular velocity 02 engineering and technology Industrial and Manufacturing Engineering Computer Science::Robotics 020901 industrial engineering & automation Control theory Obstacle avoidance Manipulator Inverse kinematics business.industry Angular displacement Mechanical Engineering Parallel manipulator Particle swarm optimization Robotics Trajectory optimization Computer Science Applications Controllability Control and Systems Engineering Trajectory Robot Artificial intelligence business Software Delta robot Interpolation
Zdroj:	The International Journal of Advanced Manufacturing Technology. 107:1091-1099
ISSN:	1433-3015 0268-3768
DOI:	10.1007/s00170-019-04421-7
Popis:	With the advancement of the times, robotics technology is also developing rapidly. Some large enterprises in China use robots to work in manufacturing and handling positions, and also make robots more and more widely used. This paper focuses on the trajectory planning strategy for three-degree-of-freedom high-speed parallel manipulator of Delta robot in Cartesian space under high-speed operation handling, the point-to-point “door” type handling operation trajectory under the condition of ensuring control accuracy and increasing productivity in intelligent packaging is established based on the inverse kinematics model of the manipulator. The 4–3–3-4 degree polynomial interpolation is presented to control height of obstacle avoidance and trajectory length, on this basis, the mapping relationship between the motion features in operation space and those in joint space is established. Taking into account the complexity of trajectory optimization due to multiple constraints, in order to reduce the difficulty of trajectory optimization, it is necessary to ensure smoothness and constrains of angular displacement, angular velocity and angular acceleration of each joint in space, an improved particle swarm optimization algorithm is proposed to optimize trajectory running time of the 4–3–3-4 degree polynomial interpolation. The simulation results by using Matlab indicate that the accurate and stable time-optimal trajectory planning of 4–3–3-4 degree polynomial interpolation can be achieved by means of the improved particle swarm optimization algorithm. Compared with other trajectory planning algorithms, the proposed algorithm is easier to implement, which not only improves the local convergence of particle swarm optimization algorithm, achieves the time optimal trajectory planning of Delta robot, but also realizes the controllability of obstacle avoidance height, therefore which realizes the fast, accurate and safe operation in intelligent packaging.
Databáze:	OpenAIRE
Externí odkaz:	https://explore.openaire.eu/search/publication?articleId=doi_________::0375e3de2cf7b4e35cc9b2f45c4f6714 https://doi.org/10.1007/s00170-019-04421-7 Zobrazit plný text záznamu Full text from SpringerLink