MATHEMATICAL MODELING AND ANALYSIS OF BIOLOGICAL SYSTEMS

Sithara Mary Sunny; K. S. Sivanandan; Baiju Thankachan; Arun P. Parameswaran

MATHEMATICAL MODELING AND ANALYSIS OF BIOLOGICAL SYSTEMS

Sithara Mary Sunny, K. S. Sivanandan, Baiju Thankachan^*, Arun P. Parameswaran

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

1 Citation (Scopus)

Abstract

This work is a short description of the development of a mathematical model for the dynamics of human elbow movement. The work is presented in a simple way that it can be extended for further models of the dynamics of any human limb. The experiments to be conducted and the processing of the results is done so as to obtain the constant coefficients of the truncated infinite series which is declared as the model representing the dynamics. The differential terms are formulated by the experimental read-ings and these terms are successfully utilized for the determination of the coefficients. The model is validated by comparing the model output with that of the actual experimental values. The error factors of the model de-rived through the validation is augmented to the model for improving the performance.

Original language	English
Pages (from-to)	51-63
Number of pages	13
Journal	Global and Stochastic Analysis
Volume	11
Issue number	1
Publication status	Published - 01-2024

All Science Journal Classification (ASJC) codes

Statistics and Probability
Discrete Mathematics and Combinatorics

Cite this

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title = "MATHEMATICAL MODELING AND ANALYSIS OF BIOLOGICAL SYSTEMS",

abstract = "This work is a short description of the development of a mathematical model for the dynamics of human elbow movement. The work is presented in a simple way that it can be extended for further models of the dynamics of any human limb. The experiments to be conducted and the processing of the results is done so as to obtain the constant coefficients of the truncated infinite series which is declared as the model representing the dynamics. The differential terms are formulated by the experimental read-ings and these terms are successfully utilized for the determination of the coefficients. The model is validated by comparing the model output with that of the actual experimental values. The error factors of the model de-rived through the validation is augmented to the model for improving the performance.",

author = "Sunny, {Sithara Mary} and Sivanandan, {K. S.} and Baiju Thankachan and Parameswaran, {Arun P.}",

year = "2024",

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AU - Thankachan, Baiju

AU - Parameswaran, Arun P.

PY - 2024/1

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N2 - This work is a short description of the development of a mathematical model for the dynamics of human elbow movement. The work is presented in a simple way that it can be extended for further models of the dynamics of any human limb. The experiments to be conducted and the processing of the results is done so as to obtain the constant coefficients of the truncated infinite series which is declared as the model representing the dynamics. The differential terms are formulated by the experimental read-ings and these terms are successfully utilized for the determination of the coefficients. The model is validated by comparing the model output with that of the actual experimental values. The error factors of the model de-rived through the validation is augmented to the model for improving the performance.

AB - This work is a short description of the development of a mathematical model for the dynamics of human elbow movement. The work is presented in a simple way that it can be extended for further models of the dynamics of any human limb. The experiments to be conducted and the processing of the results is done so as to obtain the constant coefficients of the truncated infinite series which is declared as the model representing the dynamics. The differential terms are formulated by the experimental read-ings and these terms are successfully utilized for the determination of the coefficients. The model is validated by comparing the model output with that of the actual experimental values. The error factors of the model de-rived through the validation is augmented to the model for improving the performance.

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MATHEMATICAL MODELING AND ANALYSIS OF BIOLOGICAL SYSTEMS

Abstract

All Science Journal Classification (ASJC) codes

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