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Optimization Model of Instep Kick: The ABP-Based Mathematical Mode

Our study is concerned with the development of a mathematical model of the biomechanical system dynamics, based on the angular body posture (ABP), for generating high-impact instep kick. Instep kick is one of the most fundamental skills applied in many sports such as soccer, futsal, rugby or America...

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Main Authors: Zaifilla Farrina Binti Zainuddin, Norasrudin Sulaiman, UniKL IPROM
Format:
Language:English
Published: Springer Link 2014
Subjects:
Instep kick
biomechanical
mathematical model
futsal
Online Access:http://localhost/xmlui/handle/123456789/8988
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id my.unikl.ir-8988
record_format eprints
spelling my.unikl.ir-89882014-12-12T10:08:56Z Optimization Model of Instep Kick: The ABP-Based Mathematical Mode Zaifilla Farrina Binti Zainuddin, Norasrudin Sulaiman UniKL IPROM Instep kick biomechanical mathematical model futsal Our study is concerned with the development of a mathematical model of the biomechanical system dynamics, based on the angular body posture (ABP), for generating high-impact instep kick. Instep kick is one of the most fundamental skills applied in many sports such as soccer, futsal, rugby or American football, swimming, martial art and sepaktakraw. For soccer and futsal, instep kick has been recognized for its role in goal scoring. This paper describes the 3D analysis of instep kicks based on data collected through controlled experiments at the National Sports Institute involving the Malaysian National Futsal team. Details of the method used are presented. This digitization of the images and the analysis are using Evart 5.0 software. Understanding the biomechanics system dynamics of the instep kicks will enable improvement of the kick performance, thus increasing the chance of scoring goals. 2014-12-12T08:10:19Z 2014-12-12T08:10:19Z 2014-07-24 http://localhost/xmlui/handle/123456789/8988 en Springer Link
institution Universiti Kuala Lumpur
building UniKL Library
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universiti Kuala Lumpur
content_source UniKL Institutional Repository
url_provider http://ir.unikl.edu.my/
language English
topic Instep kick
biomechanical
mathematical model
futsal
spellingShingle Instep kick
biomechanical
mathematical model
futsal
Zaifilla Farrina Binti Zainuddin, Norasrudin Sulaiman
UniKL IPROM
Optimization Model of Instep Kick: The ABP-Based Mathematical Mode
description Our study is concerned with the development of a mathematical model of the biomechanical system dynamics, based on the angular body posture (ABP), for generating high-impact instep kick. Instep kick is one of the most fundamental skills applied in many sports such as soccer, futsal, rugby or American football, swimming, martial art and sepaktakraw. For soccer and futsal, instep kick has been recognized for its role in goal scoring. This paper describes the 3D analysis of instep kicks based on data collected through controlled experiments at the National Sports Institute involving the Malaysian National Futsal team. Details of the method used are presented. This digitization of the images and the analysis are using Evart 5.0 software. Understanding the biomechanics system dynamics of the instep kicks will enable improvement of the kick performance, thus increasing the chance of scoring goals.
format
author Zaifilla Farrina Binti Zainuddin, Norasrudin Sulaiman
UniKL IPROM
author_facet Zaifilla Farrina Binti Zainuddin, Norasrudin Sulaiman
UniKL IPROM
author_sort Zaifilla Farrina Binti Zainuddin, Norasrudin Sulaiman
title Optimization Model of Instep Kick: The ABP-Based Mathematical Mode
title_short Optimization Model of Instep Kick: The ABP-Based Mathematical Mode
title_full Optimization Model of Instep Kick: The ABP-Based Mathematical Mode
title_fullStr Optimization Model of Instep Kick: The ABP-Based Mathematical Mode
title_full_unstemmed Optimization Model of Instep Kick: The ABP-Based Mathematical Mode
title_sort optimization model of instep kick: the abp-based mathematical mode
publisher Springer Link
publishDate 2014
url http://localhost/xmlui/handle/123456789/8988
_version_ 1644485031445397504
score 13.214268

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