Modeling floodplain inundation using an integrated GIS with radar and optical remote sensing
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[1] R. Kauth,et al. The tasselled cap - A graphic description of the spectral-temporal development of agricultural crops as seen by Landsat , 1976 .
[2] D. Kleinbaum,et al. Applied Regression Analysis and Other Multivariate Methods , 1978 .
[3] K. Beven,et al. A physically based, variable contributing area model of basin hydrology , 1979 .
[4] Utah,et al. Flood Insurance Study , 1982 .
[5] Donald B. Segal,et al. SEASAT synthetic aperture radar (SAR) response to lowland vegetation types in eastern Maryland and Virginia , 1983 .
[6] E. Crist,et al. Application of the Tasseled Cap concept to simulated thematic mapper data , 1984 .
[7] John R. Jensen,et al. Nontidal wetland mapping in South Carolina using airborne multispectral scanner data , 1984 .
[8] Michael E. Hodgson,et al. Remote sensing inland wetlands: a multispectral approach , 1985 .
[9] R. Jackson,et al. Spectral response of a plant canopy with different soil backgrounds , 1985 .
[10] Wiley M. Kitchens,et al. MODELLING THE IMPACTS OF A RIVER DIVERSION ON BOTTOMLAND FOREST COMMUNITIES IN THE SANTEE RIVER FLOODPLAIN, SOUTH CAROLINA , 1985 .
[11] John L. Place. MAPPING OF FORESTED WETLAND: USE OF SEASAT RADAR IMAGES TO COMPLEMENT CONVENTIONAL SOURCES , 1985 .
[12] Andrew J. Blanchard,et al. DETECTION OF LOWLAND FLOODING USING ACTIVE MICROWAVE SYSTEMS. , 1985 .
[13] Robert Costanza,et al. Dynamic spatial simulation modeling of coastal wetland habitat succession , 1985 .
[14] M. Price. The analysis of vegetation change by remote sensing , 1986 .
[15] R. J. Kauth,et al. The Tasseled Cap de-mystified , 1986 .
[16] P. Burrough. Principles of Geographical Information Systems for Land Resources Assessment , 1986 .
[17] Michael E. Hodgson,et al. Remote sensing of Wetland habitat: a wood stork example , 1987 .
[18] John A. Richards,et al. An explanation of enhanced radar backscattering from flooded forests , 1987 .
[19] Marc L. Imhoff,et al. Monsoon flood boundary delineation and damage assessment using space borne imaging radar and Landsat data , 1987 .
[20] Y. Yamagata,et al. Flood damage analysis using multitemporal Landsat Thematic Mapper data , 1988 .
[21] M. Hutchinson. A new procedure for gridding elevation and stream line data with automatic removal of spurious pits , 1989 .
[22] H. E. Jr. Mackey. Monitoring seasonal and annual wetland changes in a freshwater marsh with SPOT HRV data , 1989 .
[23] A. Beaudoin,et al. SAR observations and modeling of the C-band backscatter variability due to multiscale geometry and soil moisture , 1990 .
[24] J. Phillips. A SATURATION-BASED MODEL OF RELATIVE WETNESS FOR WETLAND IDENTIFICATION1 , 1990 .
[25] L. Hess,et al. Radar detection of flooding beneath the forest canopy - A review , 1990 .
[26] Mason J. Hewitt. Synoptic inventory of riparian ecosystems: The utility of Landsat Thematic Mapper data , 1990 .
[27] I. Moore,et al. Digital terrain modelling: A review of hydrological, geomorphological, and biological applications , 1991 .
[28] J. Cihlar,et al. Change detection with synthetic aperture radar , 1992 .
[29] J. R. Jensen,et al. An evaluation of the CoastWatch change detection protocol in South Carolina , 1993 .
[30] Jakob J. van Zyl,et al. Change detection techniques for ERS-1 SAR data , 1993, IEEE Trans. Geosci. Remote. Sens..
[31] M. Dobson,et al. Contribution of space remote sensing to river studies , 1993 .
[32] A. Pietroniro,et al. Extracting Distributed Soil Moisture Information from C-Band Wide Swath Sar Imagery , 1993 .
[33] A. Echternacht,et al. Biodiversity of the southeastern United States : lowland terrestrial communities , 1993 .
[34] M. Goodchild,et al. Environmental Modeling with GIS , 1994 .
[35] S. Running,et al. Forest ecosystem processes at the watershed scale: Sensitivity to remotely-sensed leaf area index estimates , 1993 .
[36] K. A. Poiani,et al. A Spatial Simulation Model of Hydrology and Vegetation Dynamics in Semi-Permanent Prairie Wetlands. , 1993, Ecological applications : a publication of the Ecological Society of America.
[37] A. Huete,et al. A Modified Soil Adjusted Vegetation Index , 1994 .
[38] Jack F. Paris,et al. Radar remote sensing of forest and wetland ecosystems in the Central American tropics , 1994 .
[39] Chantal Gascuel-Odoux,et al. Effect of saturated areas on backscattering coefficient of the ERS 1 synthetic aperture radar: First results , 1994 .
[40] John M. Melack,et al. Determination of inundation area in the Amazon River floodplain using the SMMR 37 GHz polarization difference , 1994 .
[41] E. S. Kasischke,et al. The effects of changes in loblolly pine biomass and soil moisture on ERS-1 SAR backscatter , 1994 .
[42] J. Raper,et al. Landscape ecology and GIS: edited by R Haines-Young, D R Green and S H Cousins Taylor and Francis, London, 1993, 296 pp , 1995 .
[43] Gregory J. McCabe,et al. Comparison of Single and Multiple Flow Direction Algorithms for Computing Topographic Parameters in TOPMODEL , 1995 .
[44] Yong Wang,et al. Understanding the radar backscattering from flooded and nonflooded Amazonian forests: Results from canopy backscatter modeling☆ , 1995 .
[45] P. Townsend,et al. PATTERNS OF LANDSCAPE USE BY BEAVER ON THE LOWER ROANOKE RIVER FLOODPLAIN, NORTH CAROLINA , 1996 .
[46] S. Walsh,et al. Estimation of soil parameters for assessing potential wetness: Comparison of model responses through GIS , 1996 .