This book highlights the basic theories and key technologies of error compensation for industrial robots. The chapters are arranged in the order of actual applications: establishing the robot kinematic models, conducting error analysis, conducting kinematic and non-kinematic calibrations, and planning optimal sampling points. To help readers effectively apply the technologies, the book elaborates the experiments and applications in robotic drilling and milling, which further verifies the effectiveness of the technologies. This book presents the authors’ research achievements in the past decade in improving robot accuracy. It is straightforwardly applicable for technical personnel in the aviation field, and provides valuable reference for researchers and engineers in various robotic applications.
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This book highlights the basic theories and key technologies of error compensation for industrial robots. The chapters are arranged in the order of actual applications: establishing the robot kinematic models, conducting error analysis, conducting kinematic and non-kinematic calibrations, and planning optimal sampling points.
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Part 1 Theories.- Chapter 1 Introduction.- Chapter 2 Kinematic modeling.- Chapter 3 Positioning error compensation using kinematic calibration.- Chapter 4 Error-similarity-based positioning error compensation.- Chapter 5 Joint space closed-loop feedback.- Chapter 6 Cartesian space closed-loop feedback.- Part 2 Chapter 7 Applications in robotic drilling.- Chapter 8 Applications in robotic milling.
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This book highlights the basic theories and key technologies of error compensation for industrial robots. The chapters are arranged in the order of actual applications: establishing the robot kinematic models, conducting error analysis, conducting kinematic and non-kinematic calibrations, and planning optimal sampling points. To help readers effectively apply the technologies, the book elaborates the experiments and applications in robotic drilling and milling, which further verifies the effectiveness of the technologies. This book presents the authors’ research achievements in the past decade in improving robot accuracy. It is straightforwardly applicable for technical personnel in the aviation field, and provides valuable reference for researchers and engineers in various robotic applications.
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Includes both theoretical knowledge and practical applications Introduces error similarity theory to improve the precision compensation effects in industrial robots Provides application examples in the aviation field
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Produktdetaljer
ISBN
9789811961670
Publisert
2022-11-30
Utgiver
Vendor
Springer Verlag, Singapore
Høyde
235 mm
Bredde
155 mm
Aldersnivå
Professional/practitioner, P, 06
Språk
Product language
Engelsk
Format
Product format
Innbundet
Om bidragsyterne
Wenhe LiaoWenhe Liao works as Professor and Vice President of Nanjing University of Science and Technology and serves as Standing Director of Chinese Society of Astronautics. He was Director of the Institute of Science and Technology at Nanjing University of Aeronautics and Astronautics and Director of Engineering Technology Research Center of Digital Design and Manufacture, Jiangsu Province, China. His research interests include digital design and manufacture and aerospace propulsion theory and engineering.Bo LiBo Li works as Assistant Professor at the College of Mechanical and Electrical Engineering of Nanjing University of Aeronautics and Astronautics. His research interests include robotics and intelligent control, electromechanical system dynamics and vibration control, and robot automatic assembly technology.
Wei TianWei Tian works as Professor at the College of Mechanical and Electrical Engineering ofNanjing University of Aeronautics and Astronautics. His research interests include key technologies of digital flexible assembly, green remanufacturing process, and life evaluation.
Pengcheng Li
Pengcheng Li works as Assistant Professor at the College of Mechanical and Electrical Engineering of Nanjing University of Aeronautics and Astronautics. His research interests include robot vision and control and robotic machining technology.