MODELING MUSCLE ACTIVITIES OF SQUAT MOTION USING OPENSIM

Health is an important thing for humanity in survival. Health is related to the human body which consists of many parts that needs to be maintained, which one of them is the muscle. Muscle health can be assessed from the results of muscle force simulations from the OpenSIM software. OpenSIM is an op...

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Main Author: Julian Harjanto, Samuel
Format: Final Project
Language:Indonesia
Online Access:https://digilib.itb.ac.id/gdl/view/70237
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Institution: Institut Teknologi Bandung
Language: Indonesia
id id-itb.:70237
spelling id-itb.:702372022-12-28T13:35:37ZMODELING MUSCLE ACTIVITIES OF SQUAT MOTION USING OPENSIM Julian Harjanto, Samuel Indonesia Final Project optical motion capture, forceplate, surface electromyography, OpenSIM, graph, trend INSTITUT TEKNOLOGI BANDUNG https://digilib.itb.ac.id/gdl/view/70237 Health is an important thing for humanity in survival. Health is related to the human body which consists of many parts that needs to be maintained, which one of them is the muscle. Muscle health can be assessed from the results of muscle force simulations from the OpenSIM software. OpenSIM is an open-source platform for modeling, simulating, and analyzing the neuromusculoskeletal system. To validate the muscle force simulation results from the OpenSIM software, muscle activity data were collected using surface electromyography. This research step begins with a literature review and the selection of research subjects. After that, the data were collected using sEMG method, optical motion capture, and forceplate from the OpenSIM squat-standing movement model. The data generated from the optical motion capture and forceplate will be used as inputs for the OpenSIM software. The output that can be provided by OpenSIM from those steps is a graph of the working muscle forces. That graph will be compared and analyzed with a graph from the surface electromyography sensor reading results. Based on the results of the analysis conducted, the graph of working muscle forces generated by the OpenSIM software has shown a similar trend to the graph of muscle activity resulting from surface electromyography sensor reading. Therefore, it validated the results from OpenSIM software and implies that the data collecting process has been done precisely. Some suggestions to support further research are assembling wireless sensor devices, using strong adhesives, and learning more about the OpenSIM software. text
institution Institut Teknologi Bandung
building Institut Teknologi Bandung Library
continent Asia
country Indonesia
Indonesia
content_provider Institut Teknologi Bandung
collection Digital ITB
language Indonesia
description Health is an important thing for humanity in survival. Health is related to the human body which consists of many parts that needs to be maintained, which one of them is the muscle. Muscle health can be assessed from the results of muscle force simulations from the OpenSIM software. OpenSIM is an open-source platform for modeling, simulating, and analyzing the neuromusculoskeletal system. To validate the muscle force simulation results from the OpenSIM software, muscle activity data were collected using surface electromyography. This research step begins with a literature review and the selection of research subjects. After that, the data were collected using sEMG method, optical motion capture, and forceplate from the OpenSIM squat-standing movement model. The data generated from the optical motion capture and forceplate will be used as inputs for the OpenSIM software. The output that can be provided by OpenSIM from those steps is a graph of the working muscle forces. That graph will be compared and analyzed with a graph from the surface electromyography sensor reading results. Based on the results of the analysis conducted, the graph of working muscle forces generated by the OpenSIM software has shown a similar trend to the graph of muscle activity resulting from surface electromyography sensor reading. Therefore, it validated the results from OpenSIM software and implies that the data collecting process has been done precisely. Some suggestions to support further research are assembling wireless sensor devices, using strong adhesives, and learning more about the OpenSIM software.
format Final Project
author Julian Harjanto, Samuel
spellingShingle Julian Harjanto, Samuel
MODELING MUSCLE ACTIVITIES OF SQUAT MOTION USING OPENSIM
author_facet Julian Harjanto, Samuel
author_sort Julian Harjanto, Samuel
title MODELING MUSCLE ACTIVITIES OF SQUAT MOTION USING OPENSIM
title_short MODELING MUSCLE ACTIVITIES OF SQUAT MOTION USING OPENSIM
title_full MODELING MUSCLE ACTIVITIES OF SQUAT MOTION USING OPENSIM
title_fullStr MODELING MUSCLE ACTIVITIES OF SQUAT MOTION USING OPENSIM
title_full_unstemmed MODELING MUSCLE ACTIVITIES OF SQUAT MOTION USING OPENSIM
title_sort modeling muscle activities of squat motion using opensim
url https://digilib.itb.ac.id/gdl/view/70237
_version_ 1822006250792026112