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METU Data Driven Forecast Models: From the Window of Space Weather IAU Symposium 335

Published online by Cambridge University Press:  24 July 2018

Yurdanur Tulunay  and
Ersin Tulunay
Yurdanur Tulunay
Affiliation:
ODTÜ-METU Dept. of Aerospace Eng., 06800 Ankara, Turkey email: ytulunay@metu.edu.tr
Ersin Tulunay
Affiliation:
ODTÜ-METU Dept. of Electrical and Electronic Eng., 06800 Ankara, Turkey email: ersintul@metu.edu.tr
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Abstract

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Space weather processes, in general, are non-linear and time-varying. In such cases ‘data driven models’ such as Neural Network, Fuzzy Logic and Genetic Algorithm based models were proved promising to be used in parallel with the mathematical models based on first physical principles. In particular, with the recent developments in ‘big data’ systems, one of the urgent issues is the development of new signal processing techniques to extract manageable, representative data out of the ‘relevant big data’ to be employed in ‘training’, ‘testing’ and validation phases of model construction. Since 1990, under the EU Frame Work Program Actions, we have developed such models for nowcasting, forecasting, warning and also for filling the data gaps on space weather cases including prediction of orbital spacecraft parameters. In particular, some typical, illustrative examples include the forecasting of the ionospheric critical frequencies foF2, during disturbed conditions, such as solar storms and extreme events; GPS total electon content(TEC); solar flare index during solar maximum and the construction of solar EUV flux variations. The associated input data organisation and the typical errors which have been within the acceptable operational expectations are summarised in terms of absolute values, percent and RMS. The aim of the paper is to show that the data driven approaches are promising for the forecasting of space weather.

Keywords

Near Earth SpaceSpace WeatherData Driven ModelsForecast
Type
Contributed Papers
Information
Proceedings of the International Astronomical Union , Volume 13 , Symposium S335: Space Weather of the Heliosphere: Processes and Forecasts , July 2017 , pp. 328 - 330
Copyright
Copyright © International Astronomical Union 2018 

References

Altınay, O., Tulunay, E. & Tulunay, Y. 1997, Geophysical Research Letter 24 (12), 1467-1470CrossRefGoogle Scholar
Tulunay, Y., Tulunay, E. & Senalp, E.T. 2004, Advances in Space research 33 (6), 983-987CrossRefGoogle Scholar
Tulunay, Y., Tulunay, E. & Senalp, E.T. 2004, Advances in Space research 33 (6), 988-982CrossRefGoogle Scholar
Tulunay, E., Senalp, E.T., Radicella, S.M. & Tulunay, Y. 2005, Radio Science 41 (4), RS4016, http://dx.doi.org/10.1029/2005 RS 003285Google Scholar
Tulunay, Y. & Tulunay, E. 2016 From the Near Earth Space (NES)/Space Weather Window META/BIG DATA: Some Turkish Initiatives (2016 COSPAR Istanbul – cancelled) and European Space Weather Week 13 (ESWW 13), Oestende, Belgium, 14-18 November 2016Google Scholar