Controller Design for Industrial Robots and Machine Tools: Applications To Manufacturing Processes (Woodhead Publishing in Mechanical Engineering)

Summary: Advanced manufacturing systems are vital to the manufacturing industry. It is well known that if a target work piece has a curved surface, then automation of the polishing process is difficult. Controller design for industrial robots and machine tools presents results where industrial robots have been successfully applied to such surfaces, presenting up to date information on these advanced manufacturing systems, including key technologies. Chapters cover topics such as velocity-based discrete-time control system for industrial robots; preliminary simulation of intelligent force control; CAM system for an articulated industrial robot; a robot sander for artistic furniture; a machining system for wooden paint rollers; a polishing robot for PET bottle blow moulds; and a desktop orthogonal-type robot for finishing process of LED lens cavity; and concludes with a summary. About the authors: Fusaomi Nagata is a professor in the Department of Mechanical Engineering, Faculty of Engineering, Tokyo University of Science, Yamaguchi, Japan. Keigo Watanabe is a professor in the Department of Intelligent Mechanical Systems, Graduate School of Natural Science and Technology, Okayama University, Japan. Contents: Velocity-based discrete-time control system with intelligent control concepts for open architecture industrial robots; Preliminary simulation of intelligent force control; CAM system for articulated-type industrial robot; 3D robot sander for artistically designed furniture; 3D machining system for artistic wooden paint rollers; Polishing robot for pet bottle blow molds; Desktop orthogonal-type robot for LED lens cavities; Conclusion