Echo State Network Optimization using Hybrid-Structure Based Gravitational Search Algorithm with Square Quadratic Programming for Time Series Prediction

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  • Update: 29/06/2022

Echo State Network Optimization using Hybrid-Structure Based Gravitational Search Algorithm with Square Quadratic Programming for Time Series Prediction

Zohaib Ahmad

School of Electronics and

Information Engineering,

Beijing University of Technology,

China

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Muhammad Qasim Memon

Department of Information

and Computing,

University of Sufism and Modern Sciences,

Pakistan

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Aasma Memon

School of Management

and Economics,

Beijing University of Technology,

China

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Parveen Munshi

Faculty of Education,

University of Sufism and Modern Sciences,

Pakistan

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Muhammad jaffar Memon

Civil Engineering Department, SZAB Campus,

Mehran University of Engineering and Technology,

Pakistan

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Abstract: The Echo-State Network (ESN) is a robust recurrent neural network and a generalized form of classical neural networks in time-series model designs. ESN inherits a simple approach for training and demonstrates the high computational capability to solve non-linear problems. However, input weights and the reservoir's internal weights are pre-defined when optimizing with only the output weight matrix. This paper proposes a Hybrid Gravitational Search Algorithm (HGSA) to compute ESN output weights. In Gravitational Search Algorithm (GSA), Square Quadratic Programming (SQP) is united as a local search strategy to raise the standard GSA algorithm's efficiency. Later, an HGSA-SQP and the validation data set to establish the relation configuration of the ESN output weights. Experimental results indicate that the proposed configuration of HGSA-SQP-ESN is more efficient than the other conventional models of ESN with the minimum generalization error.

Keywords: Echo state network, hybrid gravitational search algorithm, network configuration optimization, time series prediction.

Received April 10, 2022; accepted April 28, 2022

https://doi.org/10.34028/iajit/19/3A/13

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