1. Akbari, E. and Shekari Badi, A. (2014). Processing and extracting information from satellite data using ENVI software, Mahvareh Publication. Tehran.
2. Alavipanah, S.K. Matinfar, H.R. Rafiei Emam, A. (2009), the Application of Information Technology in the Earth Sciences (On Digital Soil Mapping). University of Tehran Press. Tehran.
3. Arekhi, S. and Adibnejad, M. (2011), Efficiency assessment of the of Support Vector Machines for land use classification using Landsat ETM
+ data (Case study: Ilam Dam Catchment).Iranian Journal of Rangeland and Desert Research.Vol.18, NO.3, PP.420-440.
https://dx.doi.org/10.22092/ijrdr.2011.102175
4. Baseri Nam S, Esmaeily A, Dehghani M. (2015), Propose an Algorithm to Improve the Accuracy of Snow-Covered Mapping Using MODIS Images. Engineering Journal of Geospatial Information Technology Vol.3, No.1, PP.61-75.
http://dx.doi.org/10.29252/jgit.3.1.61
6. Daneshi, A. Vafakhah, M. and Panahi, M. (2016). Efficiency Comparison of Support Vector Machine and Maximum Likelihood Algorithms for Monitoring Land Use Changes. Iranian Journal of Remote Sensing & GIS, Vol.8, No.2, PP.73-86.
http://jstnar.iut.ac.ir/article-1-889-fa.html
7. Ebrahimi, H. Gheiby, A. Malakoti, H. (2012), Trend of Snow Cover Detection Using Satellite Data from MODIS over Snow-Rich Areas in Iran, Journal of NIVAR, Vol.36, PP.3-10.
8. Fatemi, S.B. and Rezaei, Y. (2014), Principles of Remote Sensing, Azadeh Publishers, Tehran.
9. Feizizadeh, B. Helali, H. (2010), Comparison Pixel-Based, Object-Oriented Methods and Effective Parameters in Classification Land Cover/ Land Use of West Province Azerbaijan, Physical Geography Research Quarterly, Vol.42, No.71, PP.73-84.
10. Ildoromi, A. Habibnejad Roshan, M. Safari Shad, M. Dalal Oghli. A. (2015), Application of MODIS Sensor and NDSI Index to Produce Snow Cover Map (Case Study of Bahar Watershed), Journal of Geographic Space, Vol.15, No.50, PP.125-140.
11. Jafari, Gh. Hosseini, S.A.R. (2018), Leveling of Tourism Target Villages in the Slopes of Alvand Mountains in Hamadan Province, Quarterly Journal of Space Economics and Rural Development, Vol.6, PP.97-114.
http://serd.khu.ac.ir/article-1-2979-fa.html
12. Jomeh Zadeh, B. Hashemi, S. Darvishi Bolourani, A. Kiavarz, M. (2016), Application of Normalized Spectral Mixture Analysis (NSMA) to extract urban built-up areas and utilize it in artificial neural network (MLP) to predict the future growth of the city, Quarterly of Geographical Data (SEPEHR), Vol.24, No.96, PP.65-77.
https://dx.doi.org/10.22131/sepehr.2016.18944
13. Khosravi, M. Tavousi, T. Raeespour, K. Omidi Ghaleh mohammadi, M. (2017), A Survey on Snow Cover Variation in Mount Zardkooh-Bakhtyare Using Remote Sensing, Journal of Hydrogeomorphology, Vol.3, No.12, PP.25-44.
14. Lu, L. Tao, Y. Di, Liping. (2018), Object Based Plastic Mulched Land Cover Extraction Using Integrated Sentinel-1 and Sentinel-2 Data, Journal of Remote Sensing, Vol.10, No.11, pp.1820-1837.
https://doi.org/10.3390/rs10111820
15. Maithani, S. (2009), a neural network based urban growth model of an Indian city, Journal of the Indian Society of Remote Sensing, vol.37,PP.363-376.
16. Mir Yaghoobzadeh, M.H. and Ghanbarpour, M.R. (2010), Investigation to MODIS Snow Cover Maps Usage in Snowmelt Runoff Modeling (Case Study: Karaj Dam Basin), Journal of Geosciences, Vol.19, No.76, PP.141-148.
https://dx.doi.org/10.22071/gsj.2010.55672
17. Mirmousavi, S.H. and Saboor, L. (2014), Monitoring the Changes of Snow Cover by Using MODIS Sensing Images at North West of Iran, Journal of Geography and Development, Vol.12, No.35, PP.181-200.
https://dx.doi.org/10.22111/gdij.2014.1562
18. Ojaghi, S. Ebadi, H. Farnood Ahmadi, F. (2015), Using artificial neural network for classification of high resolution remotely sensed images and assessment of its performance compared with statistical methods, American Journal of Engineering, Technology and Society, Vol.2, No.1, pp.1-8.
19. Rasouli, A. A. (2014), Principles of Applied Remote Sensing Satellite Image Processing, Tabriz University Press, Tabriz.
20. Rasouli, A. A. and Mahmoudzadeh, H. (2010), Fundamental of Knowledge Based Remote Sensing, Elmiran Publishers, Tabriz.
21. Rayegani. B, Khajeddin, S. J. Soltani kopani, S. Barati, S. (2008), Analysis of MODIS Snow-Cover Map Changes during Missing Data Period. Journal of Water and Soil Science, Vol.12, No.44, PP.315-332.
22. Roshani, N. Valdan Zoj, M. J. Rezaei, Y. (2008), Snow Measurement Using Remote Sensing Data (Case Study: Alamchal Glacier Area), Geomatics Conference, Tehran, Iran Mapping Organization.
23. Shojaeeian, A. Mokhtari Chelche, S. Keshtkar, L. Soleymani rad, E. (2015), Comparing the Performance of Parametric and Nonparametric Methods in Land Cover Classification using Landsat-8 Satellite Images (Case study: A part of Dezful city), Quarterly of Geographical Data (SEPEHR), Vol.24, No.93, PP.53-64.
https://dx.doi.org/10.22131/sepehr.2015.14007
24. Solaimani, K. Darvishi, Sh. Shokrian, F. Rashidpour, M. (2018), Monitoring of temporal-spatial variations of snow cover using the MODIS image (Case Study: Kurdistan Province), Iranian Journal of Remote Sensing & GIS, Vol.10, No.3, PP.77-104.
25. Talebi Esfandarani, S. Alavipanah, S.K, Alimohammadi Sarab, A. Rosta, H. (2011). Cloud separation from snow in MODIS images, using Snow Map algorithm and cloud mask algorithm, Iranian Journal of Remote Sensing & GIS, Vol.3, No.1, PP.71-90.
26.Yan, G. Mas, J. F. Maathuis, B.H.P. Xiangmin, Z. Van Dijk, P.M. (2006). Comparison of pixel based and object oriented image classification approaches (A case study in a coal fire area, Wuda, Inner Mongolia, China). International Journal of Remote Sensing Vol.27, No.18, PP. 4039-4055.
https://doi.org/10.1080/01431160600702632