Biomechanics and hydrodynamics study od aquatic locomotion

This study was conducted in order to characterize propulsion and control surface (caudal fin) of Anabas testudineus (puyu) based on distance travelled, resultant speed and acceleration. Fish was trained to swim along a 2 x 1 feet long aquarium. Two fish (adult and juvenile) were kept in the aquarium...

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Main Authors: Yaakob, Omar, Ibrahim, Zaharah, Priyanto, Agoes, Omar, Mohd. Shahir Shamir, Adnan, Faizul Amri, Hamdan, Salehuddin, Md. Salleh, Madihah, Abdul Wahap, Mohd. Arizam
Format: Monograph
Published: Faculty of Mechanical Engineering 2008
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Online Access:http://eprints.utm.my/id/eprint/9319/
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spelling my.utm.93192017-08-15T00:59:46Z http://eprints.utm.my/id/eprint/9319/ Biomechanics and hydrodynamics study od aquatic locomotion Yaakob, Omar Ibrahim, Zaharah Priyanto, Agoes Omar, Mohd. Shahir Shamir Adnan, Faizul Amri Hamdan, Salehuddin Md. Salleh, Madihah Abdul Wahap, Mohd. Arizam TS Manufactures This study was conducted in order to characterize propulsion and control surface (caudal fin) of Anabas testudineus (puyu) based on distance travelled, resultant speed and acceleration. Fish was trained to swim along a 2 x 1 feet long aquarium. Two fish (adult and juvenile) were kept in the aquarium at a time to stimulate a competitive situation and induce burst swimming sequences. Spontaneous swimming along the aquarium was filmed and analysed. A CCV-A11b (Progressive Scan Monochrome Camera) was positioned 180 cm above the base of the aquarium to provide dorsal views of swimming sequences. Images from video recordings (20 frames s¯¹) were analysed frame by frame using global coordinates system, with time interval 0.05s. When sub-carangiform alone was used it was found that in both juvenile and adult, the distance travelled by the tail tip was always greater than the distance travelled by the body. In contrast, when sub-carangiform was used in combination with labriform locomotion, the distance travelled by tail tip was less than the distance travelled by the body, which is comparable to the double propulsion system found in marine vehicles. Apart from that, other findings revealed that juvenile fish had higher acceleration rate compared to an adult for a given time. Overall, A. testudineus were more efficient swimmers in their juvenile forms than in adulthood based on their distance travelled, speed, acceleration and distance travelled ratio. Faculty of Mechanical Engineering 2008-12-31 Monograph NonPeerReviewed Yaakob, Omar and Ibrahim, Zaharah and Priyanto, Agoes and Omar, Mohd. Shahir Shamir and Adnan, Faizul Amri and Hamdan, Salehuddin and Md. Salleh, Madihah and Abdul Wahap, Mohd. Arizam (2008) Biomechanics and hydrodynamics study od aquatic locomotion. Project Report. Faculty of Mechanical Engineering, Skudai, Johor. (Unpublished)
institution Universiti Teknologi Malaysia
building UTM Library
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universiti Teknologi Malaysia
content_source UTM Institutional Repository
url_provider http://eprints.utm.my/
topic TS Manufactures
spellingShingle TS Manufactures
Yaakob, Omar
Ibrahim, Zaharah
Priyanto, Agoes
Omar, Mohd. Shahir Shamir
Adnan, Faizul Amri
Hamdan, Salehuddin
Md. Salleh, Madihah
Abdul Wahap, Mohd. Arizam
Biomechanics and hydrodynamics study od aquatic locomotion
description This study was conducted in order to characterize propulsion and control surface (caudal fin) of Anabas testudineus (puyu) based on distance travelled, resultant speed and acceleration. Fish was trained to swim along a 2 x 1 feet long aquarium. Two fish (adult and juvenile) were kept in the aquarium at a time to stimulate a competitive situation and induce burst swimming sequences. Spontaneous swimming along the aquarium was filmed and analysed. A CCV-A11b (Progressive Scan Monochrome Camera) was positioned 180 cm above the base of the aquarium to provide dorsal views of swimming sequences. Images from video recordings (20 frames s¯¹) were analysed frame by frame using global coordinates system, with time interval 0.05s. When sub-carangiform alone was used it was found that in both juvenile and adult, the distance travelled by the tail tip was always greater than the distance travelled by the body. In contrast, when sub-carangiform was used in combination with labriform locomotion, the distance travelled by tail tip was less than the distance travelled by the body, which is comparable to the double propulsion system found in marine vehicles. Apart from that, other findings revealed that juvenile fish had higher acceleration rate compared to an adult for a given time. Overall, A. testudineus were more efficient swimmers in their juvenile forms than in adulthood based on their distance travelled, speed, acceleration and distance travelled ratio.
format Monograph
author Yaakob, Omar
Ibrahim, Zaharah
Priyanto, Agoes
Omar, Mohd. Shahir Shamir
Adnan, Faizul Amri
Hamdan, Salehuddin
Md. Salleh, Madihah
Abdul Wahap, Mohd. Arizam
author_facet Yaakob, Omar
Ibrahim, Zaharah
Priyanto, Agoes
Omar, Mohd. Shahir Shamir
Adnan, Faizul Amri
Hamdan, Salehuddin
Md. Salleh, Madihah
Abdul Wahap, Mohd. Arizam
author_sort Yaakob, Omar
title Biomechanics and hydrodynamics study od aquatic locomotion
title_short Biomechanics and hydrodynamics study od aquatic locomotion
title_full Biomechanics and hydrodynamics study od aquatic locomotion
title_fullStr Biomechanics and hydrodynamics study od aquatic locomotion
title_full_unstemmed Biomechanics and hydrodynamics study od aquatic locomotion
title_sort biomechanics and hydrodynamics study od aquatic locomotion
publisher Faculty of Mechanical Engineering
publishDate 2008
url http://eprints.utm.my/id/eprint/9319/
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score 13.211869