The Dst index is a key parameter which characterises the disturbance of the geomagnetic field in magnetic storms. Modelling of the Dst index is thus very important for the analysis of the geomagnetic field. A data-based modelling approach, aimed at obtaining efficient models based on limited input-output observational data, provides a powerful tool for analysing and forecasting geomagnetic activities including the prediction of the Dst index. Radial basis function (RBF) networks are an important and popular network model for nonlinear system identification and dynamical modelling. A novel generalised multiscale RBF (MSRBF) network is introduced for Dst index modelling. The proposed MSRBF network can easily be converted into a linear-in-the-parameters form and the training of the linear network model can easily be implemented using an orthogonal least squares (OLS) type algorithm. One advantage of the new MSRBF network, compared with traditional single scale RBF networks, is that the new network is more flexible for describing complex nonlinear dynamical systems

Balikhin, M.A.

Billings, S.A.

Wei, H.L.

Zhu, D.Q.

English

White Rose Research Online

Forecasting the geomagnetic activity of the Dst Index using radial basis function networks

The DST index is a key parameter which characterises the disturbance of the geomagnetic field in magnetic storms. Modelling of the DST index is thus, very important for the analysis of the geomagnetic field. A data-based modelling approach, aimed at obtaining efficient models based on limited input-output observational data, provides a powerful tool for analysing and forecasting geomagnetic activities including the prediction of the DST index. Radial Basis Function (RBF) networks are an important and popular network model for nonlinear system identification and dynamical modelling. A novel generalised multi-scale RBF (MSRBF) network is introduced for DST index modelling. The proposed MSRBF network can easily be converted to a linear-in-the-parameters form and the training of the linear network model can easily be implemented using an orthogonal least squares (OLS) type algorithm. One advantage of the new MSRBF network, compared with traditional single scale RBF networks, is that the new network is more flexible for describing complex nonlinear dynamical system

This is a repository copy of Forecasting the Geomagnetic Activity of the DST index Using Radial Basis Function Networks.White Rose Research Online URL for this paper:http://eprints.whiterose.ac.uk/85175/Monograph:Wei, H.L., Zhu, D.Q., Billings, S.A. et al. (1 more author) (2006) Forecasting the Geomagnetic Activity of the DST index Using Radial Basis Function Networks. Research Report. ACSE Research Report 941 . Department of Automatic Control and Systems Engineering eprints@whiterose.ac.ukhttps://eprints.whiterose.ac.uk/Reuse Unless indicated otherwise, fulltext items are protected by copyright with all rights reserved. The copyright exception in section 29 of the Copyright, Designs and Patents Act 1988 allows the making of a single copy solely for the purpose of non-commercial research or private study within the limits of fair dealing. The publisher or other rights-holder may allow further reproduction and re-use of this version - refer to the White Rose Research Online record for this item. Where records identify the publisher as the copyright holder, users can verify any specific terms of use on the publisher’s website. Takedown If you consider content in White Rose Research Online to be in breach of UK law, please notify us by emailing eprints@whiterose.ac.uk including the URL of the record and the reason for the withdrawal request. 

Forecasting the Geomagnetic Activity of the DST index Using Radial Basis Function Networks

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Forecasting the geomagnetic activity of the Dst Index using radial basis function networks

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