Autore: |
TAIAR Redha
|
Titolo: |
Biomechanical Spectrum of Human Sport Performance
|
Pubblicazione: |
Basel, Switzerland, : MDPI - Multidisciplinary Digital Publishing Institute, 2020 |
Descrizione fisica: |
1 electronic resource (356 p.) |
Soggetto topico: |
History of engineering & technology |
Soggetto non controllato: |
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 |
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neuromuscular training |
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strength |
|
injury prevention |
|
young athletes |
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basketball shoe |
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comfort perception |
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foot loading |
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plantar pressure |
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maneuver |
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two-dimensional video analysis |
|
validity |
|
reliability |
|
quantitative biomechanical parameters |
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artistic gymnastics |
|
minimalist index |
|
patellofemoral contact force |
|
patellofemoral contact stress |
|
footwear |
|
patellofemoral joint pain syndrome |
|
virtual reality |
|
visual speed perception |
|
treadmill running |
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self-motion perception |
|
optical flow |
|
locomotion |
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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 |
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whole-body vibration exercise |
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Pittsburgh Sleep Quality Index |
|
Epworth Sleepiness Scale |
|
Berlin Questionnaire |
|
mechanical vibration |
|
traditional Chinese medicine |
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balance |
|
flexibility |
|
muscle strength |
|
stabilometry |
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ballet dancers |
|
ankle injury |
|
chronic ankle instability |
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functional |
|
movement |
|
evaluation |
|
assessment |
|
screen |
|
type 2 diabetes mellitus |
|
blood flow velocity |
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skin temperature |
|
vibration |
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3D force modeling |
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rowing biomechanics |
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robot-assisted training |
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individualized training |
|
virtual reality simulator |
|
training of experts |
|
rowing simulator |
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tendon based parallel robot |
|
transversal vibration control |
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physical training intensity |
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therapeutic exercises |
|
work related neck pain |
|
musculoskeletal pain |
|
flight time |
|
vertical jump |
|
center of mass |
|
landing |
|
anthropometric variables |
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hamstring-to-quadriceps ratio |
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H/Q ratio |
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isometric |
|
lower limb |
|
measurement acquisitions and techniques |
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strength and conditioning |
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sports training |
|
strength abilities |
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anterior cruciate ligament |
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automation |
|
drop jump |
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injury risk |
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deep learning |
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machine learning |
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movement screen |
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OpenPose |
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signal complexity |
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texture analysis |
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multiscale entropy analysis |
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wavelet transform |
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photoplethysmography |
|
orthosis |
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tensile strength test |
|
robotic therapy |
|
posture stability |
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football |
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training |
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slackline balancing |
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dynamics reconstruction |
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contact force modeling |
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optimal control |
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subject-specific modeling |
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velocity |
|
technique |
|
overhead |
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racket |
|
swing |
|
stroke |
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modeling and simulation in sport science |
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mechanical analyses of sports |
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sport medicine |
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injury in sport |
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human behavior |
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quality of life |
|
applied science in musculoskeletal disorders |
Persona (resp. second.): |
Bernardo-FilhoMario |
|
TAIARRedha |
Sommario/riassunto: |
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. |
Titolo autorizzato: |
Biomechanical Spectrum of Human Sport Performance |
Formato: |
Materiale a stampa |
Livello bibliografico |
Monografia |
Lingua di pubblicazione: |
Inglese |
Record Nr.: | 9910557497903321 |
Lo trovi qui: | Univ. Federico II |
Opac: |
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