Analiza vpliva gravitacijske sile na kinematiko gibanja roke

RAJHARD, ALEKSANDER

Analiza vpliva gravitacijske sile na kinematiko gibanja roke
ID RAJHARD, ALEKSANDER (Author), ID Kamnik, Roman (Mentor) More about this mentor... This link opens in a new window

, ID Babič, Jan (Co-mentor)

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Abstract

Človeško življenje in gibanje je močno odvisno od gravitacije. Naša telesa so prilagojena na zemeljsko gravitacijo, ki je skozi celotno naše življenje konstantna. To pa ne velja za pilote in astronavte. Ti opravljajo svoje naloge v različnih gravitacijskih okoljih, kar vpliva na premikanje in opravljanje teh nalog. Raziskovanje sprememb, ki nastopajo v spremenjenem gravitacijskem okolju, še posebaj v breztežnosti, je težko preučevati na Zemlji. Eden izmed načinov generiranja breztežnosti je uporaba paraboličnih letov, kjer se generirajo 20 sekundne izmenjujoče se faze breztežnosti in povečane težnosti. Naš eksperiment je potekal na enem izmed takih letov in preučeval kinematične spremembe gibov roke, ki nastopijo v spremenjenih gravitacijskih okoljih ter načine, kako te spremembe zmanjšati, kurativno z dodajanjem zunanje robotske sile, ki kompenzira spremembo okolja, ali pa preventivno, s treningi kjer z dodano silo na zapestje simuliramo spremembo okolja. V tem delu preučimo spremembe v gibih med različnimi gravitacijskimi pogoji, tako brez kot s kompenzacijo in s simuliranjem gravitacijskih pogojev. Spremembe v gibih smo merili z analizo razmerja med časom pospeševanja in časom pojemanja giba, trajanjem giba, ukrivljenostjo trajektorije giba in natančnostjo izvajanja naloge. Naloga, ki so jo merjenci izvajali sestoji iz vertikalnih gibov od točke do točke, od sredine zaslona na dotik, do tarč, ki se prikazujejo vertikalno nad in pod začetno točko na različnih razdaljah. Perturbacijska sila, s katero smo kompenzirali oziroma simulirali spremenjena gravitacijska okolja je bila prek dveh motorjev aplicirana na zapestje merjenca, kinematika roke pa je bila merjena z uporabo sistema Vicon kamer in pasivnih odsevnih značk. Naš eksperiment potrjuje močnejši vpliv mikrogravitacije kot pa večje težnosti, na kinematiko gibov, zaradi proporcionalno večje razlike med težo in maso. Trajanje giba se pokaže kot dober pokazatelj mikrogravitacije, saj so gibi daljši, prav tako pa tudi uspešnosti kompenzacije mikrogravitacije, saj se dolžina giba vrne na normalne vrednosti. Kompenzacija je prav tako uspešna pri povečanju natančnosti pri izvajanju naloge. V nasprotju z literaturo pa se je čas pospeševanja in pojemanja pokazal kot nekarakterističen parameter. Simuliranje spremembe gravitacijskega ni bilo povsem uspešno pri generiranju gibov s kinematičnimi parametri primerljivimi z gibi, ki smo jih merili v dejanskem spremenjenem gravitacijskem okolju. Pri simulaciji smo zasledili zanimiv artefakt izenačitve kinematičnih parametrov za gibe navzgor in navzdol, ki bi ga bilo potrebno še bolj preučiti.

Language:	Slovenian
Keywords:	gravitacija, parabolični leti, gibi od točke do točke, mikrogravitacija, povečana gravitacija, simulacija spremenjene gravitacije, kompenzacija spremenjene gravitacije
Work type:	Master's thesis/paper
Organization:	FE - Faculty of Electrical Engineering
Year:	2021
PID:	20.500.12556/RUL-131272
COBISS.SI-ID:	78076675
Publication date in RUL:	24.09.2021
Views:	527
Downloads:	69
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Abstract:
Language:	English
Title:	Analysis of the gravitational force influence on the kinematics of hand movement
Gravity has a big impact on human life and movement in general. Our bodies are adapted to Earth gravity, which is constant throughout our lives. That however is not true for pilots and astronauts. They must operate in different gravitational environments, which affects their movement and execution of tasks. Researching the changes that arise in altered gravitational environment, especially in weightlessness, is hard to do on Earth. One way of generating weightlessness is with parabolic flights, which generate alternating 20 second phases of weightlessness and enhanced gravity. Our experiment took place on one of such flights and had the goal of researching the changes in kinematics of hand point to point movements and how to minimise those changes. Minimisation was done using a robot that applied force on the hand that during flight compensated the change of gravity force on the arm and during training simulated the weight change, which would happen in the altered gravity. In this master thesis we analyse the changes between different gravitational environments, without compensation, with compensation, and simulation of altered gravity. The changes in point to point movements were measured with four different parameters: relative time to peak velocity, duration of movement, curvature of trajectory and accuracy of task execution. The task given to the subjects consisted of vertical point to point movements, starting from the middle of a touchscreen, to any of 14 targets that appeared bellow or above the starting position. The perturbation force that compensated or simulated the changes in arm weight was generated by two motors, that pulled on the wrist of the subject via a string while the kinematics of the arm has been measured by an infrared camera system Vicon using passive reflective markers. Our experiment confirmed a bigger impact of weightlessness on movement kinematics in comparison to enhanced gravity. It is hypothesised that this is due to greater relative change between arm mass and arm weight. The duration of movement turned out to be a good indicator of movements in weightlessness since the movements lasted longer. Likewise the duration of movements showed effective compensation, since compensated movements had a comparable duration with movements in normal gravity. Compensation was also shown to increase the accuracy of task execution. However, in contrast to the literature, the relative time to peak velocity did not carry much information in our experiment. Simulating altered gravity conditions was not as successful as was compensation, since the kinematics of movement did not converge toward kinematics in actual altered environment. We did however notice a peculiar artefact of equalising of kinematic parameters during simulation of altered gravity between upward and downward movements. This observation was not expected and needs further investigation.
Keywords:	gravitation, parabolic flights, point to point movement, microgravity, enhanced gravity, altered gravity simulation, altered gravity compensation

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