Journal of Engineering and Applied Sciences
Year:
2018
Volume:
13
Issue:
14
Page No.
5868 - 5872
Water Feature Extraction, Enhancement and Change Detection Using
Landsat-5 TM Multi Temporal Images by Image Fusion
Authors :
M. Hemalatha
and
S. Varadarajan
References
Brisco, B., A. Schmitt, K. Murnaghan, S. Kaya and A. Roth, 2013. SAR polarimetric change detection for flooded vegetation. Intl. J. Digital Earth, 6: 103-114.
CrossRef | Direct Link | Demir, B., F. Bovolo and L. Bruzzone, 2013. Updating land-cover maps by classification of image time series: A novel change-detection-driven transfer learning approach. IEEE. Trans. Geosci. Remote Sens., 51: 300-312.
CrossRef | Direct Link | Desmet, P.J.J. and G. Govers, 1996. A GIS procedure for automatically calculating the USLE LS factor on topographically complex landscape units. J. Soil Water Conserv., 51: 427-433.
Dronova, I., P. Gong and L. Wang, 2011. Object-based analysis and change detection of major wetland cover types and their classification uncertainty during the low water period at Poyang Lake, China. Remote Sens. Environ., 115: 3220-3236.
CrossRef | Direct Link | Du, Z., L. Bin, F. Ling, W. Li and W. Tian
et al., 2012. Estimating surface water area changes using time-series Landsat data in the Qingjiang River Basin, China. J. Appl. Remote Sens., 6: 063609-1-063609-16.
CrossRef | Feyisa, G.L., H. Meilby, R. Fensholt and S.R. Proud, 2014. Automated water extraction index: A new technique for surface water mapping using Landsat imagery. Remote Sens. Environ., 140: 23-35.
CrossRef | Direct Link | McFeeters, S.K., 1996. The use of the Normalized Difference Water Index (NDWI) in the delineation of open water features. Int. J. Remote Sens., 17: 1425-1432.
CrossRef | Direct Link | Rokni, K., A. Ahmad, A. Selamat and S. Hazini, 2014. Water feature extraction and change detection using multitemporal Landsat imagery. Remote Sens., 6: 4173-4189.
CrossRef | Direct Link | Rouse Jr. J., R.H. Haas, J.A. Schell and D.W. Deering, 1974. Monitoring vegetation systems in the Great Plains with ERTS. Proceedings of 3rd International Symposium on Earth Resources Technology Satellite Vol. 1, January 1, 1974, NASA, USA., pp: 309-317.
Salmon, B.P., W. Kleynhans, F.V.D. Bergh, J.C. Olivier and T.L. Grobler
et al., 2013. Land cover change detection using the internal covariance matrix of the extended Kalman filter over multiple spectral bands. IEEE. J. Remote Sens., 6: 1079-1085.
CrossRef | Direct Link | Shen, L. and C. Li, 2010. Water body extraction from Landsat ETM+ imagery using adaboost algorithm. Proceedings of the 2010 18th International Conference on Geoinformatics, June 18-20, 2010, IEEE, Beijing, China, pp: 1-4.
Volpi, M., G.P. Petropoulos and M. Kanevski, 2013. Flooding extent cartography with Landsat TM imagery and regularized Kernel Fisher's discriminant analysis. Comput. Geosci., 57: 24-31.
CrossRef | Direct Link | Weifeng, Z.H.O.U. and W.U. Bingfang, 2008. Assessment of soil erosion and sediment delivery ratio using remote sensing and GIS: A case study of upstream Chaobaihe River catchment, North China. Intl. J. Sediment Res., 23: 167-173.
CrossRef | Direct Link | Wilson, E.H. and S.A. Sader, 2002. Detection of forest harvest type using multiple dates of Landsat TM imagery. Remote Sens. Environ., 80: 385-396.
CrossRef | Direct Link | Xu, H., 2006. Modification of Normalised Difference Water Index (NDWI) to enhance open water features in remotely sensed imagery. Intl. J. Remote Sens., 27: 3025-3033.
Direct Link |