AbediKoupai J., Islamian V. and Ameri M. )2000(. Compare four methods of estimating evapotranspiration lysimeters in the area of micro-level reference data. Second National Conference on Manage of irrigation and drainage networks, Ahvaz [in Persian].
Adl F., Zeinalzadeh V. and Habebzadeh K.)2009(. Estimating reference evapotranspiration using different methods (case study Urmia synoptic station). Second National Conference on Irrigation and Drainage network management, Ahvaz [in Persian].
Alizadeh A. (2000). Principles Applied Hydrology. Publication of Imam Reza.No:816. [in Persian]
Chang F. J., Chang K. Y. and Chang L. C. (2008). Counter-propagation fuzzyneural network for city flood control system. J. Hydrol., 358, 24-34.
Dehghanisanij H. T., Yamamoto and V. Rasiah. (2004). Assessment of evapotranspiration estimation models for use in semiarid environments. Agri. Water Manag., 64, 91-106.
Frevert, D. K., Hill, R. W. and Braaten, B. C. (1983). Estimation of FAO evapotranspiration coefficient. J. Irrig. Drain. Eng., 109(2), 265-270.
Gundekar H. G., Khodke U. M. and Sarkar S. (2008). Evaluation of pan coefficient for reference crop evapotranspiration for semiarid region. J. Irrig. Sci., 26, 169175.
Hozhbar H., Moazed H. and Shokrikoochak S. (2015). Estimation of Reference evapotranspiration (ETo) using empirical models, artificial neural network modeling and their comparison with lysimeter data in Urmia Kahrizi station. J. Irrig. Water, 4(15), 13-25 [In Persian].
Heidary M., Chalak A. and Khasheisuoki A. (2013). Experimental methods to determine the evaporation in semi-arid climates and mountainous Shiraz Bojnoord. National Conference and irrigation and evaporation of Kerman [in Persian].
Irmak S., Haman D. and Jones J. W. (2002). Evaluation of class A pan coefficients for estimating reference evapotranspiration in humid location. J. Irrig. Drain. Eng., 128(3), 153-159.
Irmak S. A., Irmak R. G., Allen and Jones J. W. (2003). Solar and net radiation based equations to estimate reference evapotranspiration in humid climates. J. Irrig. Drain. Eng., 129(5), 336-347.
Jahanbakhsheasl S., Movaheddanesh A. and Molavy V. (2001). Analysis models for estimating evapotranspiration stations in Tabriz. J. Agric. Know., 51-65 [In Persian].
Jensen M. E., Burtnan R. D. and Allen R. G. (1990). Evapotranspiration and irrigation water requirements, ASCE Manuals and Reports on Engineering Practices, No. 70, ASCE, New York.
Kumar M., Raghuwanshi N. S., Singh R., Wallender W.W. and Pruitt W. O. (2002). Estimating evapotranspiration using artificial neural network. J. Irrig. Drain. ASCE, 128(4), 224-233.
Landeras G., Ortiz-Barredo A. and Lopez J. J. (2008). Comparison of artificial neural network models and empirical and semiempirical equations for daily reference evapotranspiration estimation in the Basque Country (Northern Spain). J. Agric. Water Manage., 95, 553–565.
Rezaei A., Khasheisuoki A. and Shahedi A. (2015). Groundwater level monitoring network design using the least squares support vector machine (LSSVM). Iran Soil Water Res., 45(4), 389-396 [In Persian].
Rezaei A., Shahedi A., Khasheisuoki A. and RyahyMdvar H. (2014). Performance evaluation least squares support vector machine model to predict water table. J. Irrig. Drain., 4(7), 510-520 [In Persian].
Sabziparvar A. A. and Shadmani M. (2012). Evaluation of pan coefficients from ANN, ANFIS, and empirical methods, for estimation of daily reference. J. Earth Space Phys., 38(1), 229-240 [In Persian].
Sabziparvar A. A., Tabari H., Aeini A. and Ghafouri M. (2010). Evaluation of class A pan coefficient models for estimation of reference crop evapotranspiration in cold semi-arid and warm arid climates. Water Resour. Manage., 24(5), 909-920.
Shiloh Shah, R. (2007). Support vector machines for classification and regression. MSc Dissertation, Computer Science, McGill University Montreal, Quebes.
Snyder R. L. (1992). Equation for evaporation pan to evapotranspiration conversion, J. Irrig. Drain. Eng., 118(6), 977-980.
Varkeshi B., ZareAbyaneh H., Marufi A., Sabziparvar F. and Soltani M. (2010). Simulation of reference evapotranspiration using artificial neural method and empirical methods and comparison with experimental Lysimeter data in cold semi-arid climate of Hamedan. J. Soil Water Conserv., 16(4), 79-100.
Yazdani V. and Ghahraman B. (2011). Determine the best experimental methods for estimating evaporation from the free surface in paddy fields Amol based on sensitivity analysis and comparison with results of artificial neural network. J. Water Res., 4(7), 47-58 [In Persian].