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Reprinted Collection. All sky modeling daylight availability and illuminance/irradiance on horizontal plane for Mahasarakham, Thailand / Singthong Pattanasethanon

Public ISBD No review available on this record. Collection Title: Reprinted Collection Title : All sky modeling daylight availability and illuminance/irradiance on horizontal plane for Mahasarakham, Thailand Material Type: printed text Authors: Singthong Pattanasethanon, Author ; Somchart Soponronnarit, Associated Name Size: 14 p. Price: 50 Baht General note: All sky model Languages : English (eng) Record link: http://libsearch.siu.ac.th/siu/opac_css/index.php?lvl=notice_display&id=15691 Reprinted Collection. All sky modeling daylight availability and illuminance/irradiance on horizontal plane for Mahasarakham, Thailand [printed text] / Singthong Pattanasethanon, Author ; Somchart Soponronnarit, Associated Name . - [s.d.] . -  ; 14 p. 50 Baht All sky model Languages : English (eng) Record link: http://libsearch.siu.ac.th/siu/opac_css/index.php?lvl=notice_display&id=15691

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Barcode	Call number	Media type	Location	Section	Status
32002000208684	REP501 2007 c.1	Reprinted	Graduate Library	Reprint Shelf	Available
32002000208676	REP501 2007 c.2	Reprinted	Main Library	Reprint Shelf	Available

An accuracy assessment of an empirical sine model, a novel sine model and an artificial neural network model for forecasting illuminance/irradiance on horizontal plane of all sky types at Mahasarakham, Thailand / Singthong Pattanasethanon

Public ISBD No review available on this record. Title : An accuracy assessment of an empirical sine model, a novel sine model and an artificial neural network model for forecasting illuminance/irradiance on horizontal plane of all sky types at Mahasarakham, Thailand Material Type: printed text Authors: Singthong Pattanasethanon ; Somchart Soponronnarit Pagination: 7 p. Keywords: Mean bias deviation. Root-mean-square-deviation. Coefficient of correlation. Alternative model. Abstract: The results of a study on all sky modeling and forecasting daylight availability for the tropical climate found in the central region of the northeastern part of Thailand (16°14′ N, 103°15′ E) is presented. The required components of sky quantities, namely, global and diffuse horizontal irradiance and global horizontal illuminance for saving energy used in buildings are estimated. The empirical sinusoidal models are validated. A and B values of the empirical sinusoidal model for all sky conditions are determined and developed to become a form of the sky conditions. In addition, a novel sinusoidal model, which consists of polynomial or exponential functions, is validated. A and B values of the empirical sinusoidal model for all sky conditions are determined and developed to become a new function in the polynomial or exponential form of the sky conditions. Novelettes, an artificial intelligent agent, namely, artificial neural network (ANN) model is also identified. Back propagation learning algorithms were used in the networks. Moreover, a one year data set and a next half year data set were used in order to train and test the neural network, respectively. Observation results from one years round data indicate that luminosity and energy from the sky on horizontal in the area around Mahasarakham are frequently brighter than those of Bangkok. The accuracy of the validated model is determined in terms of the mean bias deviation (MBD), the root-mean-square-deviation (RMSD) and the coefficient of correlation (R2) values. A comparison of the estimated solar irradiation values and the observed values revealed a small error slide in the empirical sinusoidal model as well. In addition, some results of the sky quantity forecast by the ANN model indicate that the ANN model is more accurate than the empirical models and the novel sinusoidal models. This study confirms the ability of the ANN to predict highly accurate solar radiance/illuminance values. We believe that the ANN model is suitable as an alternative model for forecasting the sky quantities. Record link: http://libsearch.siu.ac.th/siu/opac_css/index.php?lvl=notice_display&id=18478 An accuracy assessment of an empirical sine model, a novel sine model and an artificial neural network model for forecasting illuminance/irradiance on horizontal plane of all sky types at Mahasarakham, Thailand [printed text] / Singthong Pattanasethanon ; Somchart Soponronnarit . - [s.d.] . - 7 p. Keywords: Mean bias deviation. Root-mean-square-deviation. Coefficient of correlation. Alternative model. Abstract: The results of a study on all sky modeling and forecasting daylight availability for the tropical climate found in the central region of the northeastern part of Thailand (16°14′ N, 103°15′ E) is presented. The required components of sky quantities, namely, global and diffuse horizontal irradiance and global horizontal illuminance for saving energy used in buildings are estimated. The empirical sinusoidal models are validated. A and B values of the empirical sinusoidal model for all sky conditions are determined and developed to become a form of the sky conditions. In addition, a novel sinusoidal model, which consists of polynomial or exponential functions, is validated. A and B values of the empirical sinusoidal model for all sky conditions are determined and developed to become a new function in the polynomial or exponential form of the sky conditions. Novelettes, an artificial intelligent agent, namely, artificial neural network (ANN) model is also identified. Back propagation learning algorithms were used in the networks. Moreover, a one year data set and a next half year data set were used in order to train and test the neural network, respectively. Observation results from one years round data indicate that luminosity and energy from the sky on horizontal in the area around Mahasarakham are frequently brighter than those of Bangkok. The accuracy of the validated model is determined in terms of the mean bias deviation (MBD), the root-mean-square-deviation (RMSD) and the coefficient of correlation (R2) values. A comparison of the estimated solar irradiation values and the observed values revealed a small error slide in the empirical sinusoidal model as well. In addition, some results of the sky quantity forecast by the ANN model indicate that the ANN model is more accurate than the empirical models and the novel sinusoidal models. This study confirms the ability of the ANN to predict highly accurate solar radiance/illuminance values. We believe that the ANN model is suitable as an alternative model for forecasting the sky quantities. Record link: http://libsearch.siu.ac.th/siu/opac_css/index.php?lvl=notice_display&id=18478

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Barcode	Call number	Media type	Location	Section	Status
32002000208718	REP503 2008c.1	Reprinted	Graduate Library	Reprint Shelf	Available
32002000208726	REP503 2008c.2	Book	Main Library	Reprint Shelf	Available