TY - BOOK ID - 126264807 TI - Biomechanical Spectrum of Human Sport Performance AU - TAIAR, Redha AU - Bernardo-Filho, Mario PY - 2020 PB - Basel, Switzerland MDPI - Multidisciplinary Digital Publishing Institute DB - UniCat KW - History of engineering & technology KW - foot morphology KW - toes function KW - biomechanics KW - barefoot KW - jumping KW - running KW - jump throwing ability KW - 3D motion analysis KW - acceleration KW - kidney KW - torque KW - exercise KW - physical fitness KW - peritoneal dialysis KW - sports engineering KW - ground reaction forces KW - swimming KW - performance KW - neuromuscular training KW - strength KW - injury prevention KW - young athletes KW - basketball shoe KW - comfort perception KW - foot loading KW - plantar pressure KW - maneuver KW - two-dimensional video analysis KW - validity KW - reliability KW - quantitative biomechanical parameters KW - artistic gymnastics KW - minimalist index KW - patellofemoral contact force KW - patellofemoral contact stress KW - footwear KW - patellofemoral joint pain syndrome KW - virtual reality KW - visual speed perception KW - treadmill running KW - self-motion perception KW - optical flow KW - locomotion KW - forefoot KW - Gait KW - Heel KW - TUG KW - Type 2 diabetes mellitus KW - metabolic syndrome KW - whole body vibration exercise KW - range of motion of the knees KW - surface electromyographic pattern KW - neuromuscular activation KW - sleep quality KW - whole-body vibration exercise KW - Pittsburgh Sleep Quality Index KW - Epworth Sleepiness Scale KW - Berlin Questionnaire KW - mechanical vibration KW - traditional Chinese medicine KW - balance KW - flexibility KW - muscle strength KW - stabilometry KW - ballet dancers KW - ankle injury KW - chronic ankle instability KW - functional KW - movement KW - evaluation KW - assessment KW - screen KW - type 2 diabetes mellitus KW - blood flow velocity KW - skin temperature KW - vibration KW - 3D force modeling KW - rowing biomechanics KW - robot-assisted training KW - individualized training KW - virtual reality simulator KW - training of experts KW - rowing simulator KW - tendon based parallel robot KW - transversal vibration control KW - physical training intensity KW - therapeutic exercises KW - work related neck pain KW - musculoskeletal pain KW - flight time KW - vertical jump KW - center of mass KW - landing KW - anthropometric variables KW - hamstring-to-quadriceps ratio KW - H/Q ratio KW - isometric KW - lower limb KW - measurement acquisitions and techniques KW - strength and conditioning KW - sports training KW - strength abilities KW - anterior cruciate ligament KW - automation KW - drop jump KW - injury risk KW - deep learning KW - machine learning KW - movement screen KW - OpenPose KW - signal complexity KW - texture analysis KW - multiscale entropy analysis KW - wavelet transform KW - photoplethysmography KW - orthosis KW - tensile strength test KW - robotic therapy KW - posture stability KW - football KW - training KW - slackline balancing KW - dynamics reconstruction KW - contact force modeling KW - optimal control KW - subject-specific modeling KW - velocity KW - technique KW - overhead KW - racket KW - swing KW - stroke KW - modeling and simulation in sport science KW - mechanical analyses of sports KW - sport medicine KW - injury in sport KW - human behavior KW - quality of life KW - applied science in musculoskeletal disorders UR - https://www.unicat.be/uniCat?func=search&query=sysid:126264807 AB - Writing or managing a scientific book, as it is known today, depends on a series of major activities, such as regrouping researchers, reviewing chapters, informing and exchanging with contributors, and at the very least, motivating them to achieve the objective of publication. The idea of this book arose from many years of work in biomechanics, health disease, and rehabilitation. Through exchanges with authors from several countries, we learned much from each other, and we decided with the publisher to transfer this knowledge to readers interested in the current understanding of the impact of biomechanics in the analysis of movement and its optimization. The main objective is to provide some interesting articles that show the scope of biomechanical analysis and technologies in human behavior tasks. Engineers, researchers, and students from biomedical engineering and health sciences, as well as industrial professionals, can benefit from this compendium of knowledge about biomechanics applied to the human body. ER -