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Introduction to Digital Human Modeling: Medical Robots and Devices: New Developments and Advances

Autor Yujiang Xiang, James Yang
en Limba Engleză Paperback – mai 2025
Introduction to Digital Human Modeling bridges the gap in current literature by providing a comprehensive book on digital human modeling for beginners and researchers. The contents include step-by-step procedures to build a digital human model, fundamental human kinematics and dynamics, advanced topics like motion prediction and injury prevention, and industrial applications. The target audience is undergraduate and graduate students in biomedical engineering, mechanical engineering, industrial engineering, and kinesiology. The book covers theories and experiment-based validation, including human anatomy, degrees of freedom, skeletal and musculoskeletal modeling, equations of motion, reach envelopes, lifting prediction, and injury analysis. The book teaches readers how to build simulation-based human models, set up equations of motion, analyze human biomechanics, and use simulations and experiments to study worker injuries. The book provides an introduction to fundamentals and advanced digital human modeling methods and optimization techniques to improve performance and prevent injuries in manual material handling and address lifting and gait biomechanics and ergonomics.


  • Step-by-step procedures to build a digital human model
  • Validation of predicted human motion using simulations and experiments
  • Applies formulate optimization formulation for dynamic human motion prediction
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Specificații

ISBN-13: 9780443219986
ISBN-10: 0443219982
Pagini: 400
Dimensiuni: 191 x 235 mm
Editura: ELSEVIER SCIENCE
Seria Medical Robots and Devices: New Developments and Advances


Cuprins

1. Introduction 2. Anthropometric modeling 3. Human Anatomy and Kinematic Skeleton 4. Danevit-Hartenberg Method 5. Kinematics and Sensitivity Analysis 6. Dynamics and Sensitivity Analysis 7. Numerical Interpolation 8. Reach Envelop 9. Posture Prediction 10. Hand modeling 11. Joint Strength Surface 12. Skeletal Lifting Prediction Using Sequential Quadratic Programming Algorithm 13. Musculoskeletal Lifting Prediction and OpenSim Model 14. Gait 15. Jumping 16. Sit-to-stand 17. Multi-objective optimization on digital human modeling 18. Fatigue Model 19. Lifting Posture Prediction with Fatigue 20. Repetitive Lifting Prediction with Fatigue 21. Collaborative lifting 22. Experiments