[1] Rikimaru, A., "TM Data Processing Guide for forest Canopy Density Mapping and Monitoring Model," ITTO workshop on Utilization of Remote Sensing in Site Assessment and Planning for Rehabilitation of Logged-over Forest, July 30-August 1, Bangkok, Thailand, 1996.
[2] Taefi Feijani, M.,. "Evaluation and Optimization of FCD Model in Estimating Forest Canopy Density Classes Using Data Fusion Methods and Image Indices Substitution," Master's Thesis, Tehran, Iran, 2006, 85 p. (In Persian).
[3] Jamalabad, M.S. and A. A. Abkar, "Forest Canopy Density Monitoring Using Satellite Images," In Geo-Imagery Bridging Continents XXth ISPRS Congress, Istanbul, Turkey, 2004.
[4] Azizi, Z., A. Najafi and H. Sohrabi, "Forest Canopy Density Estimating Using Satellite Images," The International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences, 8. 2008.
[5] Huang, C., Yang, L., Wylie, B. K. & Homer, C.,. "A Strategy for Estimating Tree Canopy Density Using Landsat 7 ETM+ and High-resolution Images Over Large Areas," Published in the proceedings of the Third International Conference on Geospatial Information in Agriculture and Forestry held in Denver, Colorado, 5 -7 November, 2001
[6] Hosseini, S.Z., M. Kappas and P. Propastin, Estimating Relationship between Vegetation Dynamic and Precipitation in Central Iran, Toledo. Spain, 2011.
[7] Yin, G, Z. Hu, X. Chen, T. Tiyip, "Vegetation Dynamics and its Response to Climate Change in Central Asia," Journal of Arid Land, Vol. 8, No. 3, 2016, pp. 375-388.
[8] Mosavi, B., "Comparison of High Resolution (Quick bird) and Medium Resolution (Landsat8-OLI) Satellite Images Capability In Estimation of Trees Aboveground Biomass," A Thesis of Master Student in Forest Science, Gorgan University of Agriculture and Natural Resources, 2015, 132 p.
[9] Ronoud, Gh. "Estimating Aboveground Woody Biomass of Fagus Orientalis Stands in Hyrcanian forest of Iran using Landsat 8 Satellite Data (Case study: Khyroud forest)," A Thesis of Master Student in forest science, University of Tehran, 2016103p.
[10] Attarchi, S. "Complex Land Cover Classification and Physical Properties Retrieval of the Hyrcanian Forest: A Multi-Source Remote Sensing Approach," A thesis of PhD student, TU Bergakademie Freiberg, 2014, 130p.
[11] Attarchi, S., and R. Gloaguen, "Improving the Estimation of Above Ground Biomass Using Dual Polarimetric PALSAR and ETM+ Data in the Hyrcanian Mountain Forest (Iran)." Remote Sensing, Vol. 6, No. 5, 2014, pp. 3693-3715.
[12] Mohammadi, J., S. Shataee, M. Namiranian, and E. Næsset, "Modeling Biophysical Properties of Broad-Leaved Stands in the Hyrcanian Forests of Iran using Fused Airborne Laser Scanner Data and Ultracam-D Images," International Journal of Applied Earth Observation and Geoinformation, Vol. 61, 2017, pp.32-45.
[13]Liu, J.G., "Evaluation of Landsat-7 ETM+ Panchromatic Band for Image Fusion with Multispectral Bands," Natural Resources Research, Vol. 9, No. 4, 2000, pp.269-276.
[14] Sharma, R., K. Hara, and R. Tateishi, "Developing Forest Cover Composites through a Combination of Landsat-8 Optical and Sentinel-1 SAR Data for the Visualization and Extraction of Forested Areas," Journal of Imaging, Vol. 4, No. 9, 2018, p.105.
