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Finite and Instantaneous Screw Theory in Robotic Mechanism: Springer Tracts in Mechanical Engineering

Autor Tao Sun, Shuofei Yang, Binbin Lian
en Limba Engleză Paperback – 14 feb 2021
This book presents a finite and instantaneous screw theory for the development of robotic mechanisms. It addresses the analytical description and algebraic computation of finite motion, resulting in a generalized type synthesis approach. It then discusses the direct connection between topology and performance models, leading to an integrated performance analysis and design framework. The book then explores parameter uncertainty and multiple performance requirements for reliable, optimal design methods, and describes the error accumulation principle and parameter identification algorithm, to increase robot accuracy. It proposes a unified and generic methodology, and appliesto the invention, analysis, design, and calibration of robotic mechanisms.

The book is intended for researchers, graduate students and engineers in the fields of robotic mechanism and robot design and applications.

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Specificații

ISBN-13: 9789811519468
ISBN-10: 9811519463
Ilustrații: XI, 404 p. 150 illus., 81 illus. in color.
Dimensiuni: 155 x 235 mm
Greutate: 0.58 kg
Ediția:1st ed. 2020
Editura: Springer Nature Singapore
Colecția Springer
Seria Springer Tracts in Mechanical Engineering

Locul publicării:Singapore, Singapore

Cuprins

Introduction.- Finite and Instantaneous Screw Theory.- Topology and Performance Modeling of Robotic Mechanisms.- Type Synthesis Method and Procedures of Robotic Mechanisms.- Type Synthesis of Mechanisms with Invariable Rotation Axes.- Type Synthesis of Mechanisms with Variable Rotation Axes.- Kinematic Modeling and Analysis of Robotic Mechanisms.- Static Modeling and Analysis of Robotic Mechanisms.- Dynamic Modeling and Analysis of Robotic Mechanisms.- Optimal Design of Robotic Mechanisms.- Synthesis, Analysis and Design of typical robotic mechanisms.- Kinematic Calibration of Robotic Mechanisms.- References.

Notă biografică

Tao Sun holds a Ph.D. and is a Professor and Deputy Dean of the School of Mechanical Engineering, Tianjin University, China. He is also the Deputy Director of the Key Laboratory of Mechanism Theory and Equipment Design, Ministry of Education, China. Professor Sun’s current research focuses on mechanisms and robotics, parallel kinematic robots, bio-inspired robots, orthopedic surgery and rehabilitation robots. He has published 50 SCI cited journal papers.He has been the principle investigator of 16 national/provincial projects and holds 32 patents, and has won several awards for his work.
 
Shuofei Yang obtained his B.S. and Ph.D. degrees from Tianjin University, China, in 2011 and 2017, respectively. He is now a Research Associate in the Department of Industrial and Systems Engineering of The Hong Kong Polytechnic University, China. Dr. Yang's research interests include type synthesis, kinematics, and dynamics of robotic mechanisms. He has published 11 SCI cited journal papers and 1 EI cited journal paper.
 
Binbin Lian holds a Ph.D. and is now an Associate Professor at the School of Mechanical Engineering, Tianjin University, China. Her research interests include performance analysis, optimal design, accuracy improvement, control and application of robotic mechanisms. She has published 25 SCI cited journal papers. In addition, she holds 15 patents.




Textul de pe ultima copertă

This book presents a finite and instantaneous screw theory for the development of robotic mechanisms. It addresses the analytical description and algebraic computation of finite motion, resulting in a generalized type synthesis approach. It then discusses the direct connection between topology and performance models, leading to an integrated performance analysis and design framework. The book then explores parameter uncertainty and multiple performance requirements for reliable, optimal design methods, and describes the error accumulation principle and parameter identification algorithm, to increase robot accuracy. It proposes a unified and generic methodology, and appliesto the invention, analysis, design, and calibration of robotic mechanisms.

The book is intended for researchers, graduate students and engineers in the fields of robotic mechanism and robot design and applications.


Caracteristici

Presents the general format and in-depth computation algorithms of finite screws, and the differential mapping between finite and instantaneous screws Offers detailed insights into the systematic development of robotic mechanisms, including topology invention, performance modeling, optimal design and kinematic calibration Includes generic methodology with rigorous proofs and case studies on the widely used robotic mechanisms to aid understanding