1 Spatial Modelling of the Terrestrial Environment - Georeferencial
1 Spatial Modelling of the Terrestrial Environment - Georeferencial
1 Spatial Modelling of the Terrestrial Environment - Georeferencial
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104 <strong>Spatial</strong> <strong>Modelling</strong> <strong>of</strong> <strong>the</strong> <strong>Terrestrial</strong> <strong>Environment</strong><br />
Bates, P.D., Anderson, M.G., Baird, L., Walling, D.E. and Simm, D., 1992, <strong>Modelling</strong> floodplain<br />
flows using a two-dimensional finite element model, Earth Surface Processes and Landforms, 17,<br />
575–588.<br />
Bates, P.D., Stewart, M.D., Siggers, G.B., Smith, C.N., Hervouet, J.-M. and Sellin, R.H.J., 1998a, Internal<br />
and external validation <strong>of</strong> a two dimensional finite element model for river flood simulation,<br />
Proceedings <strong>of</strong> <strong>the</strong> Institution <strong>of</strong> Civil Engineers, Water Maritime and Energy, 130,<br />
127–141.<br />
Bechteler, W., Hartmaan, S. and Otto, A.J., 1994, Coupling <strong>of</strong> 2D and 1D models and integration<br />
into Geographic Information Systems (GIS), in W.R. White and J. Watts (eds), Proceedings <strong>of</strong><br />
<strong>the</strong> 2nd International Conference on River Flood Hydraulics (Chichester: John Wiley & Sons),<br />
155–165.<br />
Beven, K.J., 1989, Changing ideas in hydrology: <strong>the</strong> case <strong>of</strong> physically based distributed models,<br />
Journal <strong>of</strong> Hydrology, 105, 79–102.<br />
Beven, K.J. and Binley, A.M., 1992, The future <strong>of</strong> distributed models: model calibration and predictive<br />
uncertainty, Hydrological Processes, 6, 279–298.<br />
Biggin, D.S. and Blyth, K., 1996, A comparison <strong>of</strong> ERS-1 satellite radar and aerial photography for<br />
river flood mapping, Journal <strong>of</strong> <strong>the</strong> Chartered Institute <strong>of</strong> Water Engineers and Managers, 10(1),<br />
59–64.<br />
Chow, V.T., 1959, Open Channel Hydraulics (New York: McGraw-Hill).<br />
Cobby, D.M., Mason, D.C. and Davenport, I.J., 2001, Image processing <strong>of</strong> airborne scanning laser<br />
altimetry for improved river flood modelling, ISPRS Journal <strong>of</strong> Photogrammetry and Remote<br />
Sensing, 56, 121–138.<br />
Cobby, D.M., Mason, D.C., Davenport, I.J. and Horritt, M.S., 2000, Obtaining accurate maps <strong>of</strong><br />
topography and vegetation to improve 2D hydraulic flood models, Proc. EOS/SPIE Symposium on<br />
Image Processing for Remote Sensing VI, Barcelona, 25–29 Sept 2000, 125–136.<br />
Costa, J.E., Spicer, K.R., Cheng, R.T., Haeni, F.P., Melcher, N.B., Thurman, E.M., Plant, W.J. and<br />
Keller, W.C., 2000, Measuring stream discharge by non-contact methods: a pro<strong>of</strong>-<strong>of</strong>-concept<br />
experiment, Geophysical Research Letters, 27, 553–556.<br />
Defina, A., 2000, Two-dimensional shallow flow equations for partially dry areas, Water Resources<br />
Research, 36, 3251–3264.<br />
Defina, A., D’Alpaos, L. and Matticchio, B., 1994, A new set <strong>of</strong> equations for very shallow water and<br />
partially dry areas suitable to 2D numerical models, in P. Molinaro and I. Natale (eds), <strong>Modelling</strong><br />
Flood Propagation Over Initially Dry Areas (New York: American Society <strong>of</strong> Civil Engineers),<br />
72–81.<br />
Engman, E.T. and Chauhan, N., 1995, Status <strong>of</strong> microwave soil moisture measurements with remote<br />
sensing, Remote Sensing <strong>of</strong> <strong>the</strong> <strong>Environment</strong>, 51, 189–198.<br />
Estrela, T. and Quintas, L., 1994, Use <strong>of</strong> GIS in <strong>the</strong> modelling <strong>of</strong> flows on floodplains, in W.R. White<br />
and J. Watts (eds), Proceedings <strong>of</strong> <strong>the</strong> 2nd International Conference on River Flood Hydraulics<br />
(Chichester: John Wiley & Lons), 177–189.<br />
Fathi-Maghadam, M. and Kouwen, N., 1997, Nonrigid, nonsubmerged, vegetative roughness on<br />
floodplains, Journal <strong>of</strong> Hydraulic Engineering, ASCE, 123, 51–57.<br />
Feldhaus, R., Höttges, J., Brockhaus, T. and Rouvé, G., 1992, Finite element simulation <strong>of</strong> flow and<br />
pollution transport applied to a part <strong>of</strong> <strong>the</strong> River Rhine. in R.A. Falconer, K. Shiono and R.G.S.<br />
Mat<strong>the</strong>ws (eds), Hydraulic and <strong>Environment</strong>al <strong>Modelling</strong>; Estuarine and River Waters (Aldershot:<br />
Ashgate Publishing), 323–344.<br />
Fuller, R.M. and Parsell, R.J., 1990, Classification <strong>of</strong> TM imagery in <strong>the</strong> study <strong>of</strong> land use in lowland<br />
Britain: practical considerations for operational use, International Journal <strong>of</strong> Remote Sensing, 11,<br />
1901–1917.<br />
Fuller, R.M., Groom, G.B. and Jones, A.R., 1994a, The land cover map <strong>of</strong> Great Britain: an automated<br />
classification <strong>of</strong> Landsat Thematic Mapper data, Photogrammetric Engineering & Remote Sensing,<br />
60, 553–562.<br />
Fuller, R.M., Groom, G.B. and Wallis, S.M., 1994b, The availability <strong>of</strong> Landsat TM images for Great<br />
Britain, International Journal <strong>of</strong> Remote Sensing, 15, 1357–1362.<br />
Gee, D.M., Anderson, M.G. and Baird, L., 1990, Large scale floodplain modelling, Earth Surface<br />
Processes and Landforms, 15, 512–523.