Parameter identification of thermoelectric modules using enhanced slime mould algorithm (ESMA)

This paper sets pioneering research which investigates the parametric identification of thermoelectric modules (TEMs) through the employment of enhanced slime mould algorithm (ESMA). The proposed method incorporates a pair of modifications to the standard slime mould algorithm (SMA). Primary modific...

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Vydáno v:Results in engineering Ročník 23; s. 102833
Hlavní autoři: Ponnalagu, Dharswini, Ahmad, Mohd Ashraf, Jui, Julakha Jahan
Médium: Journal Article
Jazyk:angličtina
Vydáno: Elsevier B.V 01.09.2024
Elsevier
Témata:
Metaheuristics algorithms
Parameter identification
Slime mould algorithm
Thermoelectric modules
Thermoelectric modules
Metaheuristics algorithms
Parameter identification
Slime mould algorithm
ISSN:2590-1230, 2590-1230
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Abstract This paper sets pioneering research which investigates the parametric identification of thermoelectric modules (TEMs) through the employment of enhanced slime mould algorithm (ESMA). The proposed method incorporates a pair of modifications to the standard slime mould algorithm (SMA). Primary modification encloses computation of random average position between the slimes' current individual position and best individual position towards resolution of local optima issue. Subsequent modification then involves substitution of an exponential function to the existing tangent hyperbolic function within formula p of the standard SMA in enabling improved probability variants via the selection of updated equations. Competency of the proposed algorithm in generating the optimal parameters for TEMs was appraised based on 21 benchmarked design parameters, following the objective of root mean square error (RMSE) minimization between the temperature of both actual and estimated models. Acquired results which demonstrate lower values of RMSE and parameter deviation index against the standard SMA and other preceding algorithms such as particle swarm optimization, sine cosine algorithm, moth flame optimizer and ant lion optimizer ultimately verified ESMA’s efficacy as an effective approach for accurate model identification. •Random average position is proposed to solve the issue of local optima entrapment in the original SMA.•An exponential function in formula p of SMA give more variations of probability in the updated equation selection.•ESMA provides better accuracy model of TEMs than the original SMA.
AbstractList This paper sets pioneering research which investigates the parametric identification of thermoelectric modules (TEMs) through the employment of enhanced slime mould algorithm (ESMA). The proposed method incorporates a pair of modifications to the standard slime mould algorithm (SMA). Primary modification encloses computation of random average position between the slimes' current individual position and best individual position towards resolution of local optima issue. Subsequent modification then involves substitution of an exponential function to the existing tangent hyperbolic function within formula p of the standard SMA in enabling improved probability variants via the selection of updated equations. Competency of the proposed algorithm in generating the optimal parameters for TEMs was appraised based on 21 benchmarked design parameters, following the objective of root mean square error (RMSE) minimization between the temperature of both actual and estimated models. Acquired results which demonstrate lower values of RMSE and parameter deviation index against the standard SMA and other preceding algorithms such as particle swarm optimization, sine cosine algorithm, moth flame optimizer and ant lion optimizer ultimately verified ESMA’s efficacy as an effective approach for accurate model identification.
This paper sets pioneering research which investigates the parametric identification of thermoelectric modules (TEMs) through the employment of enhanced slime mould algorithm (ESMA). The proposed method incorporates a pair of modifications to the standard slime mould algorithm (SMA). Primary modification encloses computation of random average position between the slimes' current individual position and best individual position towards resolution of local optima issue. Subsequent modification then involves substitution of an exponential function to the existing tangent hyperbolic function within formula p of the standard SMA in enabling improved probability variants via the selection of updated equations. Competency of the proposed algorithm in generating the optimal parameters for TEMs was appraised based on 21 benchmarked design parameters, following the objective of root mean square error (RMSE) minimization between the temperature of both actual and estimated models. Acquired results which demonstrate lower values of RMSE and parameter deviation index against the standard SMA and other preceding algorithms such as particle swarm optimization, sine cosine algorithm, moth flame optimizer and ant lion optimizer ultimately verified ESMA’s efficacy as an effective approach for accurate model identification. •Random average position is proposed to solve the issue of local optima entrapment in the original SMA.•An exponential function in formula p of SMA give more variations of probability in the updated equation selection.•ESMA provides better accuracy model of TEMs than the original SMA.
ArticleNumber 102833
Author Jui, Julakha Jahan
Ahmad, Mohd Ashraf
Ponnalagu, Dharswini
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CitedBy_id crossref_primary_10_1016_j_rineng_2024_103357
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Keywords Thermoelectric modules
Metaheuristics algorithms
Parameter identification
Slime mould algorithm
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Snippet This paper sets pioneering research which investigates the parametric identification of thermoelectric modules (TEMs) through the employment of enhanced slime...
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SubjectTerms Metaheuristics algorithms
Parameter identification
Slime mould algorithm
Thermoelectric modules
Title Parameter identification of thermoelectric modules using enhanced slime mould algorithm (ESMA)
URI https://dx.doi.org/10.1016/j.rineng.2024.102833
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