Babak Mohammadi
Doctoral student
A comparison between the application of empirical and ANN methods for estimation of daily global solar radiation in Iran
Author
Summary, in English
The present study generally aims to provide a comparison between the performance and suitability of different types of models for estimation of daily global solar radiation in Iran, based on duration of sunshine hours and diurnal air temperature. These models consist of empirical, ordinary ANN, and ANN models coupled with genetic algorithm (so called coupled ANN models). The models’ performance was evaluated and compared based on the error statistics root mean squared error (RMSE), mean bias error (MBE), and coefficient of determination (R2). The empirical models (median of R2, MBE, RMSE for AP 0.93, 37.0, and 179.3 J/cm2/day) could generally perform much better than the ordinary ANN models (median of R2, MBE, RMSE for MLP(n) 0.90, 55.7, and 243.5 J/cm2/day). The performance of the ordinary ANN models was improved considerably after being coupled by genetic algorithm (median of R2, MBE, RMSE for MLP-GA(n) 0.92, 38.4, and 185.5 J/cm2/day), making them the most accurate models at most of the stations studied. However, the difference between the overall performances of these coupled ANN models and empirical ones was slight. Lastly, despite the coupled ANN models had relatively better accuracy compared to the empirical ones, when taking different metrics such as the required processing time, skill, and equipment into account, the empirical models appear to be the most suitable models for estimation of daily global solar radiation in Iran.
Publishing year
2019-07-01
Language
English
Pages
1257-1269
Publication/Series
Theoretical and Applied Climatology
Volume
137
Issue
1-2
Document type
Journal article
Publisher
Springer
Topic
- Meteorology and Atmospheric Sciences
Status
Published
ISBN/ISSN/Other
- ISSN: 0177-798X