PROTOTYPE OF BELLOWS-SHAPED SOFT PNEUMATIC ACTUATORS FOR THE DEVELOPMENT OF A MIRROR THERAPY SYSTEM
Hand paralysis is one of the consequences of neuromotor impairment commonly found in stroke patients. To restore motoric functions of the hand, patients are encouraged to undergo physiotherapy, in which one of the most effective methods is Mirror Therapy (MT). MT is a technique where patients syn...
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| Format: | Final Project |
| Language: | Indonesia |
| Online Access: | https://digilib.itb.ac.id/gdl/view/50041 |
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| Institution: | Institut Teknologi Bandung |
| Language: | Indonesia |
| Summary: | Hand paralysis is one of the consequences of neuromotor impairment commonly
found in stroke patients. To restore motoric functions of the hand, patients are
encouraged to undergo physiotherapy, in which one of the most effective methods
is Mirror Therapy (MT). MT is a technique where patients synchronize exercising
their abnormal extremity whilst–at the same time–using visual stimuli from the
reflection of the normal extremity. This practice should be accompanied by a
therapist. However, the number of therapists in Indonesia is insufficient. As such,
an independent approach to MT requires the help of an assistive robotic device
that aids in repetitive motion. This device must allow safe and comfortable
interactions with the user, have a flexibility high enough to be compliant to the
characteristics of hand kinematics, and move smoothly when actuated.
Soft Pneumatic Actuators (SPAs) are components from the field of soft robotics
that have recently made a surge in physical rehabilitation. SPAs are made of
deformable material and uses pneumatic pressure as its medium. A type of
structure known for its capability in uniaxial deformation is bellows. Bellows are
cylindrical with a certain number of folds called convolutions. The actuation
behavior of bellows is obtained by testing different variations of convolution
density and pressure using both numerical and experimental methods. Bellows
with 0,4 convolutions/mm were found to have optimal results, and nonlinear
behavior was observed for higher pressures. To facilitate finger movement in
physiotherapy, a bellows-shaped SPA must conform to the needs of normal hand
kinematics. Flexion-extension motions of the hand were recorded with motion
capture and processed to secure the trajectory needed as reference for the design
of the SPA. Then, a prototype for the assistive device is made. The fabricated SPA
is evaluated by comparing the joint angles of both the normal hand kinematics
and the hand kinematics generated by the SPA. It showed that they were both
similar, quantified by a percentage that depends on the elongation of the SPA in
question. This research exploits the unique capabilities of SPAs, in which
bellows–as a structure known for its means of elongation–can be implemented for
hand therapy.
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