Title :
Inverse kinematics of a reclaimer: redundancy and solution
Author :
Choi, Chintae ; Lee, Kwangwoo ; Shin, Kitae ; Ahn, Hyunsik ; Lee, Kwanhee
Author_Institution :
Process Autom. Team, RIST, Pohang, South Korea
Abstract :
The huge reclaimers in the raw ore yard are used to dig ore and transfer it to the blast furnaces. When the buckets of the reclaimer land on the stockpile, a method for solving inverse kinematics of a reclaimer is presented in this paper. To detect the shape of the pile, a 3-dimensional range finder which consists of a 2-dimensional scanner and an additional joint is developed with laser radar concepts. The kinematic configuration of the reclaimer is different from that of the commercial robot. The reclaimer has a redundancy due to the rotating buckets at the end of the its boom. A constraint equation for solving the inverse kinematics of the reclaimer is also derived by the geometrical relationship. A numerical method is used to obtain the joint angle of the reclaimer
Keywords :
distance measurement; industrial robots; inverse problems; laser ranging; mobile robots; optical radar; redundancy; robot kinematics; steel industry; telerobotics; 2D scanner; 3D range finder; inverse kinematics; kinematic configuration; laser radar; raw ore yard; reclaimer; redundancy; remote control; rotating buckets; steel industry; telerobot; Automation; Blast furnaces; Equations; Kinematics; Laser radar; Materials handling; Monitoring; Radar detection; Shape; Steel;
Conference_Titel :
Systems, Man, and Cybernetics, 1997. Computational Cybernetics and Simulation., 1997 IEEE International Conference on
Conference_Location :
Orlando, FL
Print_ISBN :
0-7803-4053-1
DOI :
10.1109/ICSMC.1997.635432
