How Is Photogrametry Applied To Hydrology

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Band, L. E., Topographic partition of watersheds with digital elevation models, Water Resour. Res., 22(1), 15-24, 1986.

Barrett, E. C., The estimation of monthly rainfall from satellite data, Monthly Weather Rev., 98, 322-327, 1970.

Bondelid, T. R., T. J. Jackson, and R. H. McCuen, Estimating runoff curve numbers using remote sensing data, in Proceedings of the International Symposium on Rainfall-Runoff Modeling, Applied Modeling in Catchment Hydrology, Water Resources Publications, Littleton, CO, 1982, pp. 519-528.

Brakke, T. W., and E. T. Kanemasu, Insolation estimation from satellite measurements of reflected radiation, Remote Sensing Environ., 11, 157-167, 1981.

Brest, C. L., and S. N. Goward, Deriving surface albedo measurements from narrow band satellite data, Int. J. Remote Sensing, 8, 351-367, 1987.

Brutsaert, W. H., Evaporation into the Atmosphere: Theory, History and Application, Reidel, Boston, MA, 1982.

Brutsaert, W. H., and M. Sugita, Regional surface fluxes from satellite-derived surface temperatures (AVHRR) and radiosonde profiles, Boundary-layer Meteorol., 58, 355-366, 1992.

Brutsaert, W. H., A. Y. Hsu, and T. J. Schmugge, Parameterization of surface heat fluxes above forest with satellite thermal sensing and boundary-layer soundings, J. Appl. Meteorol., 32(5), 910-917, 1993.

Burrough, P. A., Principles of Geographical Information Systems for Land Resources Assessment, Clarendon, Oxford, 1990.

Butler, D., From Pattern to Process: The Strategy of the Earth Observing System, NASA, Washington, DC, 1988.

Carroll, T. R., Airborne and satellite data used to map snow cover operationally in the U.S. and Canada, in Proceedings of the International Symposium on Remote Sensing and Water Resources, Enschede, The Netherlands, 1990, pp. 147-155.

Conese, C., G. Maracchi, F. Maselli, M. Romani, and L. Bottai, Integration of remotely sensed data into a GIS for the assessment of land suitability, EARSeL Adv. Remote Sensing, I, 173179, 1992.

Chang, A., J. Foster, and D. K. Hall, NIMBUS-7 derived global snow cover parameters, Ann. Glaciol., 9, 39-44, 1987.

Chang, A. T. C., J. L. Foster, and A. Rango, Utilization of surface cover composition to improve the microwave determination of snow water equivalent in a mountainous basin, Int. J. Remote Sensing, 12, 2311-2319, 1991.

Chairat, S., and J. W. Delleur, Integrating a physically based hydrological model with GRASS, in HydroGIS 93, IASH Publ. No. 211, 1993, pp. 143-150.

Choudhury, B. J., S. B. Idso, and R. J. Reginato, Analysis of an empirical model for soil heat flux under a growing wheat crop for estimating evaporation by an infrared-temperature based energy balance equation, Agric. Forest Meterol., 39, 283-297, 1987.

Choudhury, B. J., N. U. Ahmed, S. B. Idso, R. J. Reginato, and C. S. T. Daughtiy, Relations between evaporation coefficients and vegetation indices studied by model simulations, Rem. Sens. Environ., 50(1), 1-17, 1994.

Clothier, B. E., K. L. Clawson, P. J. Pinter, Jr., M. S. Moran, R. J. Reginato, and R. D. Jackson, Agric. Forest Meteorol., 37, 75-88, 1986.

Davis, P. A., and J. D. Tarpley, Estimation of shelter temperatures from operational satellite sounder data, J. Climatol. Appl. Meteorol., 22, 369-376, 1983.

Djokic, D., and D. R. Maidment, Terrain analysis for stormwater modeling, HP, 5(1), 115-124, 1991.

Dubayah, R., Estimating net solar radiation using Landsat Thematic Mapper and digital elevation data, Water Resour. Res., 28(9), 2469-2484, 1992.

Dubayah, R., and D. Lettenmaier, Combining remote sensing and hydrologic modeling for applied water and energy balance studies, paper presented at NASA EOS Interdisciplinary Working Group Meeting, San Diego, CA, 1997.

Engman, E. T., and R. J. Gumey, Remote Sensing in Hydrology, Chapman & Hall, London, 1982.

Engman, E. T., G. Angus, and W. P. Kustas, Relationship between the Hydrologie balance of a small watershed and remotely sensed soil moisture, in Proceedings of the IAHS Third International Assembly, IAHS Publ. No. 186, Baltimore, 1989, pp. 75-84.

Fairfield, J., and P. Leymarie, Drainage networks from grid digital elevation models, Water Resourc. Res., 27, 709-711, 1991.

Fisher, T. R., Integrating three-dimensional geoscientific information system (GSIS) technologies for groundwater and contaminant modeling, in HydroGIS 93, IAHS Publ. No. 211, 1993, pp. 235-241.

Fisher, T. R., and R. Q. Wales, Rational splines and multi-dimensional geologic modeling, in R. Pflug and J. W. Harbaugh (eds.), Three Dimensional Computer Graphics in Modeling Geologic Struuctures and Simulating Process, Springer-Verlag, Heidelberg, 1991, pp. 17— 28.

Fortin, J.-P., and M. Bernier, Processing remotely sensed data to derive useful input data for hydrotel hydrologie model, in Proc. 1GARS, Houston, TX, 1991.

Fritsch, D., Analysis of remote sensing data in geographical information systems, EARSeLAdv. Remote Sensing, 1, 60-65, 1992.

Gash, J. H. C., An analytical framework for extrapolating evaporation measurements by remote sensing surface temperature, Int. J. Remote Sensing, 8(8), 1245-1249, 1987.

Goodrich, D. C., T. J. Schmugge, T. J. Jackson, C. L. Unkrich, T. O. Keefer, R. Parry, L. B. Bach, and S. A. Amer, Runoff simulation sensitivity to remotely sensed initial soil water content, Water Resour. Res., 30(5), 1393-1405, 1994.

Greene, R. G., and J. F. Cruise, Development of a geographic information system for urban watershed analysis, Photogrametric Engineering and Remote Sensing, 62(7), 863-870, 1996.

Guetter, A. K., K. P. Georgakakos, and A. A. Tsonis, Hydrologie applications of satellite data, Part 2. Flow simulations and soil water estimates, J. Geophys. Res. Atmos., 101(D21), 26527-26538, 1996.

Gugan, D. J., and I. J. Dowman, Accuracy and completeness of topographic mapping from SPOT imagery, Photogram. Rec., 12(12), 787-796, 1988.

Hall, F. G., K. F. Humerick, S. J. Goetz, P. J. Sellers, and J. E. Nickerson, Satellite remote sensing of surface energy balance: success, failures and unresolved issues, in FIFE (First ISLSCP Field Experiment) Special Issue./ Geophys. Res., 97(T>\1), 19061-19090, 1992.

Houser, P. R., W. J. Shuttleworth, H. V Gupta, J. S. Famiglietti, K. H. Syed, and D. C. Goodrich, Integration of soil moisture remote sensing and hydrologie modeling using data assimilation, Water Resour. Res., 34( 12), 3405-3420, 1998.

Humes, K. S., W. P. Kustas, and M. S. Moran, Use of remote sensing and reference site measurements to estimate instantaneous surface energy balance components over a semiarid rangeland watershed, Water Resour. Res., 30(5), 1363-1373, 1994.

Jackson, R. D., Estimating évapotranspiration at local and regional scales, IEEE Trans. Geosci. Remote Sensing, GE-73, 1086-1095, 1985.

Jackson, T. J., R. M. Ragan, and R. P. Shubinski, Flood frequency studies on ungaged urban watersheds using remotely sensed data, in Proceedings of the National Symposium on Urban Hydrology, Hydraulics and Sediment Control, University of Kentucky, Lexington, KY, 1976, pp. 31-39.

Jackson, T. J., R. M. Ragan, and W. N. Fitch, Test of Landsat-based urban hydrologie modeling, ASCE J. Water Resourc. Planning Mgmt. Div., 103 (No. WR1), 141-158, 1977 (Proc. Papers 12950).

Jensen, S. K., and J. O. Domingue, Extracting topographic structure from digital elevation data for geographical information system analysis, Photogram. Eng. Remote Sensing, 54, 1593 1600, 1988.

Jensen, M. E., and H. R. Haise, Estimating évapotranspiration from solar radiation, Proc. Am. Soc. Civil Eng., J. Irrig. Drain. Div., 89, 15-41, 1963.

Johnson, L. E., MAPHYD—A digital map based hydrologie modeling system, Photogrametric Engineering and Remote Sensing, 55(6), 911-917, 1989.

Jürgens, C., and M. Fander, Soil erosion assessment and simulation by means of SGEOS and ancillary digital data, Int. J. of Remote Sensing, 74(15), 2847-2855, 1993.

Kim, K., and S. Ventura, Large-scale modeling of urban nonpoint source pollution using a geographical information system, Photogrametric Engineering and Remote Sensing, 59(10), 1539-1544, 1993.

Konecny, G., K. Jacobsen, P. Lohmann, and W. Muller, Comparison of high resolution satellite imagery, in Proceedings of the 16th Congress of the Int. Soc. Photogrametry and Remote Sensing, Kyoto, Japan, B9/IV, 1988, pp. 226-237.

Kouwen, N., E. D. Soulis, A. Pietroniro, J. Donald, and R. A. Harrington, Grouped response units for distributed hydrologie modeling, J. Water Resourc. Planning Mgmt., 779(3), 289305, 1993.

Kustas, W. P., M. S. Moran, R. D. Jackson, L. W. Gay, L. F. W. Duell, K. E. Kunkel, and A. D. Matthias, Instantaneous and daily values of the surface energy balance over agricultural fields using remote sensing and a reference field in an arid environment, Remote Sensing Environ., 32, 125-141, 1990.

Kustas, W. P., M. S. Moran, K. S. Humes, D. I. Stannard, P. J. Pinter, L. E. Hipps, E. Swiatek, and D. C. Goodrich, Surface energy balance estimates at local and regional scales using optical remote sensing from an aircraft platform and atmospheric data collected over semiarid rangelends, Water Resourc. Res., 30(5), 1241-1259, 1994.

Langran, G., Time in GIS, Taylor and Francis, New York, 1992.

Liang, X., D. P. Lettenmaier, E. F. Wood, and S. J. Burges, A simple hydrologically based model on land surface water and energy fluxes for general circulation models, J. Geophys. Res., 99, 14415-14428, 1994.

Lin, D.-S., E. F. Wood, J. S. Famiglietti, and M. Mancini, Impact of microwave derived soil moisture on hydrologie simulations using a spatially distributed water balance model, in Proceedings of the Sixth International Symposium on Physical Measurements and Signatures in Remote Sensing, Val d'Isere, France, 1994.

Lozar, R. C., Global Climate Management by Watershed Basin Units, Construction Engineering Research Laboratory, U.S. Army Corps of Engineers, Champaign, IL, 1992.

Maidment, D. R., GIS and hydrologie modeling, in M. Goodchild, B. Parks, and L. Steyaert (Eds.), Environmental Modeling with GIS, Oxford University Press, New York, 1993, pp. 147-167.

Martinec, J., A. Rango, and E. Major, The Snowmelt-Runojf Model (SRM) User's Manual, NASA Ref. Publ. 1100, National Aeronautics and Space Administration, Washington, DC, 1983.

Mattikalli, N. M., Integration of remotely sensed raster data with vector based geographical information system for land-use change detection, Int. J. Remote Sensing, 7(5(15), 2813— 2828, 1995.

Mattikalli, N. M., B. J. Devereux, and K. S. Richards, Integration of remotely sensed satellite images with a geographical information system, Comput. Geosci., 21(8), 947-956, 1995.

Mattikalli, N. M., B. J. Devereux, and K. S. Richards, Prediction of river discharge and surface water quality using an integrated geographical information system approach, Int. J. Remote Sensing, 17(A), 683-701, 1996.

Mattikalli, N. M., E. T. Engman, T. J. Jackson, and L. R. Ahuja, Microwave remote sensing of temporal variations of brightness temperature and near-surface soil water content during a watershed-scale field experiment, and its application to the estimation of soil physical properties, Water Resour. Res., 34(9), 2289-2299, 1998.

Mauser, W.. Modeling the spatial variability of soil moisture and évapotranspiration with remote sensing data, in Proceedings of the IAH Symposium on Remote Sensing and Water Resources, Enschede, 1990, pp. 249-260.

Mauser, W., Mesoscale modeling of évapotranspiration using remote sensing data, Proc. Europto Series, Int. Soc. for Photo. Optical Engineering Vol. 2959, Taormina, Italy, 1996, pp. 108-117.

McKeown, D., The role of artificial intelligence in the integration of remotely sensed data with geographic information systems, IEEE Trans. Geosci. Remote Sensing, 25, 330-348, 1987.

Merchant, J. W., GIS-based groundwater pollution hazard assessment: a critical review of the DRASTIC model, Photogrametric Engineering and Remote Sensing, 60(9), 1117-1127, 1994.

Mettel, C., D. McGraw, and S. Strater, Money saving model, Civil Eng., 64( 1), 55-56, 1994.

Mitasova, H., J. Hofierka, M. Zlocha, and L. Iverson, Modeling topographic potential for erosion and deposition using GIS, Int. J. of Geographical Information Systems, 10(5), 629641, 1996.

Moeller, R. A., Application of a geographic information system to hydrologic modeling using HEC-1, in D. B. Stafford (Ed.), Civil Engineering Applications of Remote Sensing and GIS, American Society of Civil Engineers, 1991, pp. 269-277.

Molenaar, M., and L. L. F. Janssen, Integrated processing of remotely sensed and geographic data for land inventory purposes, EARSeL Adv. Remote Sensing, 1, 113-121, 1992.

Monteith, J. L., Principles of Environmental Physics, Edward Arnold, London, 1973.

Muzik, I., and C. Chang, Flood Simulation Assisted by a GIS, Int. Assoc. Hydrological Sciences Publication No. 211, 1993, pp. 531-539.

Neumann, P., W. Fett, and G. A. Schultz, A Geographic Information System as data base for distributed hydrological models, in Proceedings of the International Symposium on Remote Sensing and Water Resources, Enschede, The Netherlands, August 1990, pp. 781-791.

O'Neill, P. E., and A. Y. Hsu, The impact of microwave-derived surface soil moisture on watershed hydrological modeling, in 1997 Research and Technology Report, NASA/GSFC, 1997.

Osmond, D. L., R. W. Gannon, J. A. Gale, D. E. Line, C. B. Knott, K. A. Phillips, M. H. Turner, M. A. Foster, D. E. Lehning, S. W. Coffey, and J. Spooner, WATERSHEDSS: A decision support system for watershed-scale nonpoint source water quality problems, J. Am. Water Resour. Assoc., 33(2), 327-341, 1997.

Ott, M., Z. Su, A. H. Schumann, and G. A. Schultz, Development of a distributed hydrological model for flood forecasting and impact assessment of landuse change in the international Mosel basin, Int. Assoc. Hydrological Sciences Publication No. 201, 1991.

Ottle, C. D., D. Vidal-Madjar, and G. Girard, Remote sensing applications to hydrological modeling, J. Hydrol, 105, 369-384, 1989.

Owe, M., and A. A. van de Grind, Daily surface moisture model for large area semi-arid land application with limited climate data, J. Hydrol., 121, 119-132, 1990.

Owe, M., A. T. C. Chang, and R. E. Golus, Estimating surface soil moisture from satellite microwave measurements and satellite derived vegetation index, Remote Sensing Environ., 24, 331-345, 1988.

Owe, M., A. A. van de Grind, and A. T. C. Chang, Surface soil moisture and satellite microwave observations in semiarid southern Africa, Water Resour. Res., 28(3), 829-839, 1992.

Papadakis, I., J. Napiorkowski, and G. A. Schultz, Monthly runoff generation by nonlinear models using multi-spectral and multi-temporal images, in Remote Sensing Oceanogr. Hydrol. Agric. Adv. Space Res., 13(5), 181-186, 1992.

Pelletier, R. E., Evaluating non-point pollution using remotely sensed data in soil erosion models, Journal of Soil and Water Conservation, 40, 332-335, 1985.

Penman, H. L., Natural evaporation from open water, bare soil and grass, Proc. R. Soc. A, 193, 129-145, 1948.

Peuquet, D. J., A conceptual framework and comparison of spatial data models, Cartographica, 21(4), 66-113, 1984.

Pinker, R. T., and I. Laszlo, Modeling surface solar irradiation for satellite applications on global scale, J. Appl. Meteorol., 31, 194-211, 1992.

Pinker, R. T., W. P. Kustas, I. Laszlo, M. S. Moran, and A. R. Huete, Basin-scale irradiance estimates in semi-arid regions using GOES-7, Water Resourc. Res., 30(5), 1375-1386, 1994.

Piwowar, J. M., E. F. LeDrew, and D. J. Dudycha, Integration of spatial data in vector and raster formats in a geographic information system environment, Int. J. Geogr. Inf. Syst., 4, 429444, 1990.

Price, J. C., Estimation of regional scale évapotranspiration through analysis of satellite thermal-infrared data, IEEE Trans. Geosci. Remote Sensing, GE-20, 286-292, 1982.

Rango, A., A. Feldman, T. S. George III, and R. M. Ragan, Effective use of Landsat data in hydrologie models, Water Resour. Bull., 19, 165-174, 1983.

Rango, A., J. Martinec, A. T. C. Chang, J. L. Foster, and V F. van Katwijk, Average areal water content of snow in a mountainous basin using microwave and visible satellite data, IEEE Trans. Geosci. Remote Sensing, 27, 740-745, 1989.

Raper, J. F., The three-dimensional geoscientific mapping and modeling system: A concept design, in J. F. Raper (Ed.), Three Dimensional Applications in Geographic Information Systems, Taylor and Francis, London, 1989, 11-19.

Renard, G. K., G. R. Foster, G. A. Weesies, and J. P. Porter, RUSLE—Revised universal soil loss equation, Journal of Soil and Water Conservation, 46, 30-33, 1991.

Romanowicz, R., K. Beven, and J. Freer, TOPMODEL as an Application Module within WIS, IAHS Publication No. 211, 1993, pp. 211-223.

Rott, H., Prospects of Active Remote Sensing for Snow Hydrology, Hydrologie Applications of Space Technology, IAHS Publ. No. 160, 1986, pp. 215-233.

Rott, H., J. Aschbacher, and K. G. Lenhart, Study of river runoff prediction based on satellite data, European Space Agency Final Report No. 5376, 1986.

Shi, J. C., and J. Dozier, Radar response to snow wetness, in Proc. International Geoscience and Remote Sensing 92, CH3041-1, 1992, pp. 927-929.

Shi, J. C., and J. Dozier, Inferring snow wetness using C-band data from SIR-C's polarimetric synthetic aperture radar, IEEE Trans. Geosci. Remote Sensing, 33(4), 905-914, 1995.

Schultz, G. A., Hydrological modeling based on remote sensing information, Adv. Space Res., 13(5), 149-166, 1993.

Schultz, G. A., Meso-scale modeling of runoff and water balances using remote sensing and other GIS data, Hydrological Sciences Journal, 39(2), 121-142, 1994.

Schultz, G. A., and E. T. Engman (Eds.), Remote Sensing in Hydrology and Water Management, Springer, Berlin, 2000.

Simpson, J., R. E Adler, and G. R. North, A proposed Tropical Rainfall Measuring Mission (TRMM) satellite, Bull. Am. Meteorol. Soc., 69, 278-295, 1988.

Sircar, J. K., R. M. Ragan, E. T. Engman, and R. A. Fink, A GIS based geomorphic approach for the computation of time-area curves, in D. B. Stafford (Ed.), Civil Engineering Applications of Remote Sensing and GIS, American Society of Chemical Engineers, New York, 1991, pp. 287-296.

Soares, J. V, R. Bernard, O. Toconet, D. Vidal-Madjar, and A. Weill, Estimation of bare soil evaporation from microwave measurements, J. Hydrol., 99, 281-296, 1988.

Srinivasan, R., and B. A. Engel, A spatial decision support system for assessing agricultural nonpoint source pollution, WRB, 30(3), 441^162, 1994.

Stiles, W. H., F. T. Ulaby, and A. Rango, Microwave measurements of snowpack properties, Nordic Hydrol., 12, 143-166, 1981.

Strubing, G., and A. Schultz, Estimation of monthly river runoff data on the basis of satellite imagery, in Proc. Hamburg Symposium, Int. Assoc. Hydrological Sciences Publication No. 145, 1983, pp. 491-498.

Swann, R., D. Hawkins, A. Westwell-Roper, and W. Johnstone, The potential for automated mapping from geocoded digital image data, Photogram. Eng. Remote Sensing, 54(2), 187193, 1988.

Tarpley, J. D., Estimating incident solar radiation at the surface from geostationary satellite data, J. Appl. Meteorol., 18, 1172-1181, 1979.

Thornthwaite, C. W, An approach toward a rational classification of climates, Geophys. Rev., 38, 55-94, 1948.

Tsonis, A. A., G. N. Triantafyllou, and K. P. Georgakakos, Hydrologic applications of satellite data for rainfall estimation, J. Geophys. Res. Atmos., 101(D21), 26517-26525, 1996.

U.S. Department of Agriculture. Soil conservation service, in National Engineering Handbook, Section 4, HYDROLOGY, U.S. Government Printing Office, Washington, DC, 1972.

van der Laan, F. B., Integration of remote sensing in a raster and vector GIS environment, EARSeLAdv. Remote Sensing, 1, 71-80, 1992.

Vieux, B. E., Geographic information systems and non-point source water quality and quantity modelling, Hydrol. Process., 5, lOld 113, 1991.

Wang, J. R., J. C. Shiue, T. J. Schmugge, and E. T. Engman, Mapping soil moisture with L-band radiometric measurements, Remote Sensing Environ., 27, 305-312, 1989.

Welch, R., T. R. Jordan, and M. Ehlers, Comparative evaluations of the geodetic accuracy and cartographic potential of Landsat-4/-5 TM image data, Photogram. Eng. Remote Sensing, 51(9), 1249-1262, 1985.

Westmoreland, S., and D. A. Stow, Category identification of changed land-use polygons in an integrated image processing/geographic information system, Photogramm. Eng. Remote Sensing, 58, 1593-1599, 1992.

Wood, E. E, D.-S. Lin, M. Mancini, D. Thongs, P. A. Troch, T. J. Jackson, J. S. Famiglietti, and E. T. Engman, Intercomparisons between passive and active microwave remote sensing, and hydrological modeling for soil moisture, Adv. Space Res., 13(5), 167-176, 1993.

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