Biomechanical Spectrum of Human Sport Performance
Biomechanical Spectrum of Human Sport Performance
English[eng]
foot morphology||toes function||biomechanics||barefoot||jumping||running||jump throwing ability||3D motion analysis||acceleration||kidney||torque||exercise||physical fitness||peritoneal dialysis||sports engineering||ground reaction forces||swimming||performance||neuromuscular training||strength||injury prevention||young athletes||basketball shoe||comfort perception||foot loading||plantar pressure||maneuver||two-dimensional video analysis||validity||reliability||quantitative biomechanical parameters||artistic gymnastics||minimalist index||patellofemoral contact force||patellofemoral contact stress||footwear||patellofemoral joint pain syndrome||virtual reality||visual speed perception||treadmill running||self-motion perception||optical flow||locomotion||forefoot||Gait||Heel||TUG||Type 2 diabetes mellitus||metabolic syndrome||whole body vibration exercise||range of motion of the knees||surface electromyographic pattern||neuromuscular activation||sleep quality||whole-body vibration exercise||Pittsburgh Sleep Quality Index||Epworth Sleepiness Scale||Berlin Questionnaire||mechanical vibration||traditional Chinese medicine||balance||flexibility||muscle strength||stabilometry||ballet dancers||ankle injury||chronic ankle instability||functional||movement||evaluation||assessment||screen||type 2 diabetes mellitus||blood flow velocity||skin temperature||vibration||3D force modeling||rowing biomechanics||robot-assisted training||individualized training||virtual reality simulator||training of experts||rowing simulator||tendon based parallel robot||transversal vibration control||physical training intensity||therapeutic exercises||work related neck pain||musculoskeletal pain||flight time||vertical jump||center of mass||landing||anthropometric variables||hamstring-to-quadriceps ratio||H/Q ratio||isometric||lower limb||measurement acquisitions and techniques||strength and conditioning||sports training||strength abilities||anterior cruciate ligament||automation||drop jump||injury risk||deep learning||machine learning||movement screen||OpenPose||signal complexity||texture analysis||multiscale entropy analysis||wavelet transform||photoplethysmography||orthosis||tensile strength test||robotic therapy||posture stability||football||training||slackline balancing||dynamics reconstruction||contact force modeling||optimal control||subject-specific modeling||velocity||technique||overhead||racket||swing||stroke||modeling and simulation in sport science||mechanical analyses of sports||sport medicine||injury in sport||human behavior||quality of life||applied science in musculoskeletal disorders
English[eng]
foot morphology||toes function||biomechanics||barefoot||jumping||running||jump throwing ability||3D motion analysis||acceleration||kidney||torque||exercise||physical fitness||peritoneal dialysis||sports engineering||ground reaction forces||swimming||performance||neuromuscular training||strength||injury prevention||young athletes||basketball shoe||comfort perception||foot loading||plantar pressure||maneuver||two-dimensional video analysis||validity||reliability||quantitative biomechanical parameters||artistic gymnastics||minimalist index||patellofemoral contact force||patellofemoral contact stress||footwear||patellofemoral joint pain syndrome||virtual reality||visual speed perception||treadmill running||self-motion perception||optical flow||locomotion||forefoot||Gait||Heel||TUG||Type 2 diabetes mellitus||metabolic syndrome||whole body vibration exercise||range of motion of the knees||surface electromyographic pattern||neuromuscular activation||sleep quality||whole-body vibration exercise||Pittsburgh Sleep Quality Index||Epworth Sleepiness Scale||Berlin Questionnaire||mechanical vibration||traditional Chinese medicine||balance||flexibility||muscle strength||stabilometry||ballet dancers||ankle injury||chronic ankle instability||functional||movement||evaluation||assessment||screen||type 2 diabetes mellitus||blood flow velocity||skin temperature||vibration||3D force modeling||rowing biomechanics||robot-assisted training||individualized training||virtual reality simulator||training of experts||rowing simulator||tendon based parallel robot||transversal vibration control||physical training intensity||therapeutic exercises||work related neck pain||musculoskeletal pain||flight time||vertical jump||center of mass||landing||anthropometric variables||hamstring-to-quadriceps ratio||H/Q ratio||isometric||lower limb||measurement acquisitions and techniques||strength and conditioning||sports training||strength abilities||anterior cruciate ligament||automation||drop jump||injury risk||deep learning||machine learning||movement screen||OpenPose||signal complexity||texture analysis||multiscale entropy analysis||wavelet transform||photoplethysmography||orthosis||tensile strength test||robotic therapy||posture stability||football||training||slackline balancing||dynamics reconstruction||contact force modeling||optimal control||subject-specific modeling||velocity||technique||overhead||racket||swing||stroke||modeling and simulation in sport science||mechanical analyses of sports||sport medicine||injury in sport||human behavior||quality of life||applied science in musculoskeletal disorders