1 |
Kim EM, 2013, Extraction of the Tree Regions in Forest Areas Using LIDAR Data and Orthoimage, Journal of the Korean Society for Geospatial Information System, 21(2): 27-34.
DOI
|
2 |
Ma HS, Kang WS, Kang EM, 2013, Change Analysis of Damaged Area by Forest Land Conversion, Conference of the Korean Institute of Forest Recreation, p. 901-203.
|
3 |
Korea Forest Service, 2009, Climate Change and Forest.
|
4 |
Oh YK, 2016, Comparison of Cadastral surveying results from Low cost UAV based Imagery, Journal of the Korean Society of Cadastre, 32(3): 75-83.
|
5 |
Wie GJ, Lee H, Lee DH, Cho JM, Suh YC, 2011, Estimation of the Carbon Absorption of a Forest using Lidar Data, Journal of the Korean Society of Surveying, Geodesy, Photogrammetry and Cartography, 29(1): 55-62.
DOI
|
6 |
Lee JC, Kang IJ, Seo DJ, Kim SH, 2006, Development of Change Detection System for Forests Type using Satellite Image, Conference of the Korea Spatial Information Society, p. 132-137.
|
7 |
Ham BY, Lee, CY, Byun HK, Min BK, 2013, A Study on Detection of Deforested Land Using Aerial Photographs, Journal of the Korean Society for Geospatial Information System, 21(3): 11-17.
DOI
|
8 |
Hong ST, 1993, A Study on the Classification of Forest Vegetation using Remote Sensing Data[Thesis], Kangwon National University.
|
9 |
Hwang SR, Kim SJ, Lee IP, 2010, Detection of Forest Areas using Airborne LIDAR Data, Journal of the Korea Spatial Information Society, 18(3): 23-32.
|
10 |
Chen, C.F., Nguyen, T.S., Chang, N.B., Chen, C.R., Chang, L.Y., Valdez, M., Centeno, G., Thompson, C.A. & Aceituno, J.l., 2013. Multi-Decadal Mangrove Forest Change Detection and Prediction in Honduras, Central America, with Landsat Imagery and a Markov Chain Model, Journal of Remote Sensing, 5: 6408-6426.
DOI
|
11 |
Cideciyan, A.V., Jacobson, S.G., Kemp, C.M., Knighton, R.W., & Nagel, J.H., 1992. Registration of High-Resolution Images of the Retina, Medical Imaging VI: Image Processing, 1652: 310-322.
|
12 |
Goodwin, N. R., Coops, N. C. and Culvenor, D. S., 2006. Assessment of forest structure with airborne LiDAR and the effects of platform altitude. Remote Sens. Environ. 103(2): 140-152.
DOI
|