By using this methodology, coaches may effectively evaluate athletic performance under various competitive conditions and possibly avoid sport injuries during training. Three-dimensional finite element calculation of cartilage deformation during knee motion was implemented.Įxperimental and computational techniques could be a good platform for future athlete testing. We have presented a combined image processing-tracking algorithm for the measurement of kinematics and dynamics of jumping on a force plate, for a simplified algorithm of the spring-damper-mass model for determination force and moment on the cartilage inside the knee was developed. Also, we have connected mechanical parameter of human knee and including influence of foot contact and deformation on the forces and torque in the knee joint. We analyzed foot pressure distribution for walking of the subjects. It is evident that peak of force is not always in correlation with average of maximal von Mises stress due to different contact times and exposure of body by the ground reaction force. We presented result of maximal force during jump and average value maximal von Mises stress in the contact period. Combing this platform with the high-speed cameras and computer simulation like finite element procedure, it is enabled to understand and analyze different aspects of sport activity and jump as one of them. The force plate platform used one basic device for experimental jumping biomechanical analysis. In this chapter, result experimental and computational biomechanic analysis of jumping and walking for sportsman were presented. Radivoje Radaković, Nenad Filipovic, in Computational Modeling in Bioengineering and Bioinformatics, 2020 4 Discussion and Conclusion It also helps in getting footing for computer-integrated medicine by extracting clinically important information regarding the physical status of the underlying biology at cell, tissue, organ, and organism level and integrating information with molecules of body. Computer-integrated surgery systems could help to improve clinical outcomes and the efficient healthcare delivery ( Zhang and Fan, 2014). It provides novel link between surgeons and machines, which enables them to map and carry out surgical interventions with more accuracy and lesser amount of trauma. It informs about complex biomechanical behaviors of normal and pathological human joints to surface new methods of orthopedic treatment and rehabilitation. Paul Khurana, in Omics Technologies and Bio-Engineering, 2018 17.2.4 Computational BiomechanicsĬomputational biomechanics is a promising research field, which provides thorough treatment from foot, ankle, knee, hip, lower limb, spine, to head and teeth, as well as bone and muscle at the tissue level.
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