Chapter 1 Introduction.- Chapter 2 Dynamics Modeling and Numerical Validation of Soccer Ball Projectile Motion.- Chapter 3 Spatial Kinematics and Dynamics Simulation of Soccer Ball Projectile Motion.- Chapter 4 Optimization Design of Soccer Ball Flight Trajectory.- Chapter 5 Modeling and Simulation of Soccer Ball Free Kick.- Chapter 6 Modeling and Simulation of Soccer Ball Corner Kick.- Chapter 7 Discussion and Conclusions.- Bibliography.
Dr. Ying Li holds her B.E. and M.E. degrees in Mechanical Engineering from North University of China, and the Ph.D. degree in Vehicle Engineering from University of Science and Technology, Beijing. Her professional experience includes a faculty at North University of China; a Post-doctor Research Fellow at University of Missouri-Rolls, USA; a Post-doctor Research Fellow at University of Alberta, Canada; and a Principal Engineer at Caterpillar Global Mining, USA.
Dr. Li’s research areas include engineering equipment dynamics modeling, virtual prototype simulation, structural strength analysis, mechanical-electric system co-simulation, multi-body dynamics full vehicle simulation. The results of her research initiatives include 3 patents, 10 books, 3 book chapters, over 60 peer-reviewed technical papers in international journals and conferences. She has reviewed the dozens of articles for over ten international journals.
Dr. Li was one of the top ten winners of International Simulating Reality Contest, USA in 2015. She has been recognized with the Robert H. Quenon Endowed Research Fellowship Award by University of Missouri-Rolla, USA; the AERI/COURSE Research Fellowship Award by University of Alberta, Canada; twice of Distinguished Faculty Award and 4 times of Outstanding Student Award by North University of China, China.
The intelligent sports analysis of a soccer ball (also known as football, football ball, or association football ball) requires accurately simulating its motion and finding the best design parameters. Employing classic mechanics, this book establishes a fundamental framework for the soccer ball multi-body dynamics modeling, virtual prototype simulation and optimization design. It presents 3D virtual prototypes to predict the soccer ball trajectory for soccer players and trainers. Five typical case studies have addressed in the kinematics and dynamics simulations of soccer ball projectile motion, free kick, and corner kick in the virtual environment. The research on multi-body dynamics models provides a useful method for engineers and scientists to investigate the spatial kinematics and dynamics performances of various balls, such as soccer ball, gulf ball, American football, etc. The book is significant to guide undergraduate and graduate students from multi-disciplines to study system dynamics and optimization design.