DHM and posturography /
DHM and Posturography explores the body of knowledge and state-of-the-art in digital human modeling, along with its application in ergonomics and posturography. The book provides an industry first introductory and practitioner focused overview of human simulation tools, with detailed chapters descri...
Clasificación: | Libro Electrónico |
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Otros Autores: | , |
Formato: | Electrónico eBook |
Idioma: | Inglés |
Publicado: |
London :
Academic Press,
2019.
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Temas: | |
Acceso en línea: | Texto completo |
Tabla de Contenidos:
- Front Cover; DHM and Posturography; DHM and Posturography; Copyright; Contents; Contributors; Preface; Acronyms; Glossary; I
- Introduction; References; 2
- Why do we need digital human models?; 1. Introduction; 2. A short review on the DHM development; 3. Fields of DHM; 3.1 Anthropometrical models; 3.1.1 JACK; 3.1.2 Safework/Human Builder; 3.1.3 RAMSIS; 3.1.4 SANTOS; 3.2 Biomechanical models; 3.3 Physiological medical models; 3.3.1 Cognitive models; 3.3.2 ACT-R; 3.3.3 Soar; 3.3.4 QN-MHP; 4. SAE-DHM conferences; 4.1 History of the conferences; 4.2 Content of the conferences
- 4.2.1 General Modeling Aspects4.2.2 Areas of Application; 5. Technical development in the context of DHMs; 5.1 Specific measurement tools and the results of their application; 5.1.1 Measurement of the anthropometry; 5.1.2 Measurement of posture and motion; Mechanoelectric method; Marker-based method; Markerless procedures; Modeling posture and movement; 5.2 Consideration of new technologies; 5.3 Confusion of the various model lines; 5.3.1 Example: modeling of motion generation; 5.3.2 Confusion with physiological medical models; 5.4 Modelling of the hand; 6. Conclusion; References
- Further readingII
- Human simulation tools; 3
- Siemens Jack; 1. Introduction; 2. Jack simulation environments; 2.1 The Jack portfolio; 2.1.1 Jack for NX (CAD); 2.1.2 Teamcenter visualization Jack; 2.1.3 Process simulate human; 3. The Jack human model; 3.1 Jack and anthropometry; 3.1.1 Figure definition; 3.1.2 Anthropometric databases; 4. Task simulation with Jack; 4.1 The task simulation builder framework; 4.1.1 Natural instruction interface; 4.1.2 Planning-the task execution engine; 4.1.3 Immediate ergonomic reporting; 5. Virtual reality and motion capture; 6. Analysis capability
- 6.1 Collaborative robotics7. Conclusion; References; 4
- Human Solutions RAMSIS; 1. Introduction; 2. RAMSIS application process; 2.1 Digital representation of the customer market; 2.2 Simulation of task-specific interactions; 2.3 Ergonomic interaction analyses; 3. Conclusion; References; 5
- Task-based digital human simulation with Editor for Manual work Activities
- Basic functionalities, application ... ; 1. Backstory and development of editor for manual work activities; 2. Basic methodology; 3. Functions; 3.1 Planning and design; 3.2 Simulation and visualization
- 3.3 Evaluation and documentation4. Applications and future work; 4.1 Fields of application; 4.2 Future work; References; 6
- Santos: An integrated human modeling and simulation platform; 1. Introduction; 2. Benefits of human simulation; 3. Virtual mockups and digital twins; 4. Kinematic model; 5. Behavior-induced posture prediction; 6. Physics-based simulations: predictive dynamics; 6.1 Predictive dynamics; 6.2 Task execution; 7. Strength limits and fatigue modeling; 8. Hand modeling; 9. Scenario generation; 10. Stability and balance; 11. Injury prediction; 12. Artificial intelligence