| Author/Editor | Olenšek, Andrej | |
| Title | Sodobne metode merjenja gibanja | |
| Translated title | Contemporary methods of movement measurement | |
| Type | članek | |
| Source | In: Moderne tehnologije v rehabilitaciji : zbornik predavanj : proceedings Ljubljana : Univerzitetni rehabilitacijski inštitut Republike Slovenije - Soča | |
| Vol. and No. | Letnik 21, št. supl. 1 | |
| Publication year | 2022 | |
| Volume | str. 22-27 | |
| Language | slv | |
| Abstract | Zmožnost dobro koordinirati gibanje je verjetno ena najpomembnejših sposobnosti, ki se jih človek nauči. Omogoča natančno premikanje in izvajanje aktivnosti v tri-dimenzionalnem prostoru kot tudi natančno manipulacijo predmetov. Ker je kot tako neposredno povezano s kakovostjo življenja, je zanimanje za proučevanje in analizo človekovega gibanja že dolgo prisotno, vedno pa je bilo podvrženo trenutnim tehnološkim rešitvam in teoretičnemu znanju. V kliničnem okolju se moderne metode merjenja gibanja danes ne omejujejo zgolj na merjenje kinematike, ampak združujejo še merjenje kinetike, pogosto pa se vključuje še dinamično elektromiografijo. So široko uporabne na vseh raziskovalnih področjih, kjer je gibanje osrednji predmet proučevanja, na področju rehabilitacije in v klinični kineziologiji, na športnem področju in zabavni industriji. Za merjenje kinematike se mnogokrat uporabljajo elektronski goniometri in inercijski senzorji, v zadnjem čas pa jih pogosto nadomeščajo optični sistemi za merjenje gibanja, saj je bilo zanje razvitih mnogo standardnih protokolov merjenja. Za merjenje kinetike so precej enostavno uporabljajo pritiskovni senzorji, integrirani v vložke za čevlje ali v pohodne podloge. Ker merijo zgolj vertikalno obremenitev, za natančnejše merjenje reakcijskih sil pogosto porabljamo pritiskovne plošče, še boljša alternativa pa so instrumentacijski tekoči trakovi s pohodno površino deljeno v pohodno površino za levo in desno nogo. Danes so sistemi za merjenje in analizo gibanja temeljni integralni del sodobnih avtomatiziranih rehabilitacijskih rešitev.Being able to appropriately coordinate movement is probably one of the most important capabilities that humans learn. It enables accurate movement and performing activities in three-dimensional space as well as accurate manipulation of objects. As this is so directly related to the quality of living, the interest for studying and analysis of human movement has been long present, yet limited to available technological solutions and theoretical knowledge. Contemporary methods of movement measurement in clinical environment are not limited to kinematics measurements, but also combined with measurement of kinetics and often also include dynamic electromyography. They are widely used in all research areas where the movement is of primary interest, in rehabilitation and in clinical kinesiology, in sport and in the entertainment industry. Electronic goniometers and inertial sensors are often used for measuring kinematics. However, they are increasingly replaced by optical systems for which standardised measurement protocols have been developed. For kinetic measurements, pressure sensors integrated into shoe insoles or walkways are often used. As they only measure vertical pressure, force plates provide a more accurate alternative for measuring ground reaction forces. Even more advanced are instrumented treadmills with walking surface split into separate walking surfaces for the left and right leg. Systems for movement measurement and analysis are today a basic integral element of modern automated rehabilitation solutions. | |
| Descriptors | Gait Analysis | |
| Keywords | analiza hoje kinematika in kinetika hoje sklepni koti sklepni momenti in moči reakcijska sila podlage gait analysis gait kinematics and kinetics joint angles joint moments and powers ground reaction force |