A new method for forecasting the solar cycle descent time

The prediction of an extended solar minimum is extremely important because of the severity of its impact on the near-earth space. Here, we present a new method for predicting the descent time of the forthcoming solar cycle (SC); the method is based on the estimation of the Shannon entropy. We use th...

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Published inJournal of space weather and space climate Vol. 5; p. A29
Main Authors Kakad, Bharati, Kakad, Amar, Ramesh, Durbha Sai
Format Journal Article
LanguageEnglish
Published les Ulis EDP Sciences 2015
Subjects
Ascent
Correlation coefficient
Correlation coefficients
Descent
Entropy
Entropy (Information theory)
Grand solar minima
Magnetic fields
Magnetic flux
Mathematical models
Methods
Model accuracy
Parameters
Prediction models
Random variables
Shannon entropy
Solar activity
Solar cycle
Solar cycle prediction
Solar magnetic field
Solar minimum
Sun
Sunspot cycle
Sunspot numbers
Sunspots
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Summary:The prediction of an extended solar minimum is extremely important because of the severity of its impact on the near-earth space. Here, we present a new method for predicting the descent time of the forthcoming solar cycle (SC); the method is based on the estimation of the Shannon entropy. We use the daily and monthly smoothed international sunspot number. For each nth SC, we compute the parameter [Tpre]n by using information on the descent and ascent times of the n − 3th and nth SCs, respectively. We find that [Tpre] of nth SC and entropy can be effectively used to predict the descent time of the n + 2th SC. The correlation coefficient between [Td]n+2 − [Tpre]n and [E]n is found to be 0.95. Using these parameters the prediction model is developed. Solar magnetic field and F10.7 flux data are available for SCs 21–22 and 19–23, respectively, and they are also utilized to get estimates of the Shannon entropy. It is found that the Shannon entropy, a measure of randomness inherent in the SC, is reflected well in the various proxies of the solar activity (viz sunspot, magnetic field, F10.7 flux). The applicability and accuracy of the prediction model equation is verified by way of association of least entropy values with the Dalton minimum. The prediction model equation also provides possible criteria for the occurrence of unusually longer solar minima.
Bibliography:bibcode:2015JSWSC...5A..29K
dkey:10.1051/swsc/2015030
ark:/67375/80W-D75B5V6M-Q
istex:66FFDA4E342D183D28360751EC08B5CFFDE2E3EB
publisher-ID:swsc140052
ISSN:2115-7251
2115-7251
DOI:10.1051/swsc/2015030