Dynamics of biological human systems
Goals
The human body is an extraordinary complex dynamic system, whose physical modeling is essentialy multidisciplinary. A large number of regulatory process aim at constantly monitoring the internal environement of the body, what is referred to as the homeostasis. In this course, physical modeling of human biologogical systems are presented. Some current applications in bioengineering (artificial heart, medical robotics and imaging) are introduced.
Programme
Neuro-musculoskeletal system: strength of materials, rigid and flexible multibody systems, biomaterials.. Cardiovascular system: heart mechanics, circulation, network analysis, articial heart. Medical robotics Medical imaging: inverse problems, non-destructive testing, ultrasounds, X-rays, MRI.
Activities: Simulation of the motion with a multibody model. Signal processing for an electrocardiogram. Oral presentation and report on a research article.
Sustainable development
DD&RS level 1
Activity contextualised through environmentally sustainable development and social responsibility and/or supported by examples, exercises, applications.
Assessment method
Final mark = 0.5Knowledge + 0.5Know-how Knowledge = final exam Know-how = 0.5written reports of BE + 0.5oral and written presentation of a scientific article
Bibliography
- D. A. Neumann, Kinesiology of the musculoskeletal system. Foundations for physical rehabilitation., McGraw-Hill, 2002.0
- L. Waite, Biofluid mechanics in cardiovascular systems., McGraw-Hill, 2006.0
- C. Guy, D. Ffytch, Introduction to the principles of medical imaging., Imperial College Press,, 2005.0
Code
Responsibles
- Didier DRAGNA
- Marc JACOB