Gabriel, A. K., Goldstein, R. M. and Zebker, H. A., 1989. MAPPING SMALL ELEVATION CHANGES OVER LARGE AREAS – DIFFERENTIAL RADAR INTERFEROMETRY. Journal of Geophysical Research-Solid Earth and Planets, 94(B7):9183-9191.
General
Jet Propulsion Laboratory, 1978. Format Specification for Seasat SAR Image CCT. Technical report.
General
Jet Propulsion Laboratory, 1978. Seasat-A Ground Data System Interface Control Document: High Data Rate Record. Technical report.
General
Jet Propulsion Laboratory, 1981. An Introduction to the Interim Digital SAR Processor and the Characteristics of the Associated SEASAT SAR Imagery. JPL Publication 81-26.
McDonough, R. N., Raff, B. E. and Kerr, J. L., 1985. IMAGE-FORMATION FROM SPACEBORNE SYNTHETIC APERTURE RADAR SIGNALS. Johns Hopkins Apl Technical Digest, 6(4):300-312.
General
National Aeronautics and Space Administration, 1978. Report of the Seasat Failure Review Board. Technical report.
General
NOAA EDM, 2013. ISO 19115 Geographic Information – Metadata. (accessed 26-Jun-2013).
General
Pounder, E. (ed.) 1980. Seasat Final Report – Volume I: Program Summary. JPL Publication 80-38.
Cafforio, C., Prati, C. and Rocca, F., 1991. FULL RESOLUTION FOCUSING OF SEASAT SAR IMAGES IN THE FREQUENCY-WAVE NUMBER DOMAIN. International Journal of Remote Sensing, 12(3):491-510.
Daily, M. 1983. HUE-SATURATION-INTENSITY SPLIT-SPECTRUM PROCESSING OF SEASAT RADAR IMAGERY. Photogrammetric Engineering and Remote Sensing, 49(3):349-355.
Data and Processing
Kratky, V. 1980. SEASAT ORBIT EFFECTS ON IMAGING GEOMETRY OF SYNTHETIC APERTURE RADAR. Annales Des Mines, 186(4-5):81-90.
Data and Processing
Rignot, E. J. M., Kowk, R., Curlander, J. C. and Pang, S. S., 1991. AUTOMATED MULTISENSOR REGISTRATION – REQUIREMENTS AND TECHNIQUES. Photogrammetric Engineering and Remote Sensing, 57(8):1029-1038.
Griffin, O. M., Peltzer, R. D., Reed, A. M. and Beck, R. F., 1992. REMOTE-SENSING OF SURFACE SHIP WAKES. Naval Engineers Journal, 104(3):245-258.
Oceans
Harris, P. T., Ashley, G. M., Collins, M. B. and James, A. E., 1986. TOPOGRAPHIC FEATURES OF THE BRISTOL CHANNEL SEA-BED – A COMPARISON OF SEASAT (SYNTHETIC APERTURE RADAR) AND SIDE-SCAN SONAR IMAGES. International Journal of Remote Sensing, 7(1):119-136.
Jin, Y. Q. and Wang, S. Q., 2000. An algorithm for ship wake detection from the synthetic aperture radar images using the Radon transform and morphological image processing. Imaging Science Journal, 48(4):159-163.
Oceans
Kasischke, E. S., Shuchman, R. A., Lyzenga, D. R. and Meadows, G. A., 1983. DETECTION OF BOTTOM FEATURES ON SEASAT SYNTHETIC APERTURE RADAR IMAGERY. Photogrammetric Engineering and Remote Sensing, 49(9):1341-1353.
Oceans
Kusky, T. M., Lowman, P. D., Masuoka, P. and Blodget, H. W., 1993. ANALYSIS OF SEASAT L-BAND RADAR IMAGERY OF THE WEST BAY INDIN LAKE FAULT SYSTEM, NORTHWEST-TERRITORIES. Journal of Geology, 101(5):623-632.
Oceans
Lessard, R. A., Welford, W. T. and Zhang, F. L., 1980. SEA-WAVE DETECTION BY THE FOURIER-TRANSFORM TECHNIQUE FROM SEASAT SAR IMAGES. Journal of the Optical Society of America, 70(12):1589-1589.
Oceans
Lessard, R. A., Welford, W. T. and Zhang, F. L., 1981. SEA WAVE DETECTION BY OPTICAL FOURIER-TRANSFORMS FROM SEASAT SAR IMAGES. Optica Acta, 28(3):283-287.
Oceans
Lodge, D. W. S. 1983. SURFACE EXPRESSIONS OF BATHYMETRY ON SEASAT SYNTHETIC APERTURE RADAR IMAGES. International Journal of Remote Sensing, 4(3):639-653.
Oceans
Macklin, J. T. and Cordey, R. A., 1991. SEASAT SAR OBSERVATIONS OF OCEAN WAVES. International Journal of Remote Sensing, 12(8):1723-1740.
Oceans
Maltseva, I. G., Marov, M. N., Ramm, N. S., Fuks, V. R. and Ivanov, A. Y., 1995. Analysis of a kinematic mechanism of ocean internal wave imagery on space SAR images. Earth Observation and Remote Sensing, 13(3):409-418.
Oceans
Marino, C. M. and Tibaldi, A., 1988. USE OF LANDSAT AND SEASAT DATA AS A TOOL IN KINEMATIC ANALYSIS THE TUNISIAN ATLAS. International Journal of Remote Sensing, 9(10-11):1659-1673.
Oceans
McLeish, W. and Ross, D. B., 1980. DIRECTIONAL PROPERTIES OF OCEAN WAVES FROM HURRICANE FICO IN SEASAT SAR IMAGES. Bulletin of the American Meteorological Society, 61(9):1121-1121.
Rufenach, C. and Smith, C., 1985. OBSERVATION OF INTERNAL WAVES IN LANDSAT AND SEASAT SATELLITE IMAGERY. International Journal of Remote Sensing, 6(7):1201-1207.
Jezek, K. C., Drinkwater, M. R., Crawford, J. P., Bindschadler, R. and Kwok, R., 1993. ANALYSIS OF SYNTHETIC APERTURE RADAR DATA COLLECTED OVER THE SOUTHWESTERN GREENLAND ICE-SHEET. Journal of Glaciology, 39(131):119-132.
Snow and Ice
Ketchum, R. D. 1984. SEASAT SAR SEA-ICE IMAGERY – SUMMER MELT TO AUTUMN FREEZE-UP. International Journal of Remote Sensing, 5(3):533-544.
Sephton, A. J., Brown, L. M. J., Macklin, J. T., Partington, K. C., Veck, N. J. and Rees, W. G., 1994.SEGMENTATION OF SYNTHETIC-APERTURE RADAR IMAGERY OF SEA-ICE. International Journal of Remote Sensing, 15(4):803-825.
Land Applications
Ali, A. E. 1987. TOPOGRAPHIC MAPPING OF VEGETATIONAL FEATURES FROM SEASAT SAR IMAGERY AN EXPERIMENT FROM THE FIRTH OF TAY SCOTLAND UK. Scottish Forestry, 41(4):273-281.
Bryan, M. L. 1982. ANALYSIS OF 2 SEASAT SYNTHETIC APERTURE RADAR IMAGES OF AN URBAN SCENE. Photogrammetric Engineering and Remote Sensing, 48(3):393-398.
Land Applications
Bryan, M. L. and Clark, J., 1984. POTENTIALS FOR CHANGE DETECTION USING SEASAT SYNTHETIC APERTURE RADAR DATA. Remote Sensing of Environment, 16(2):107-124.
Ford, J. P. 1980. SEASAT ORBITAL RADAR IMAGERY FOR GEOLOGIC MAPPING – TENNESSEE-KENTUCKY-VIRGINIA. AAPG Bulletin-American Association of Petroleum Geologists, 64(12):2064-2094.
Land Applications
Foster, J. L. and Hall, D. K., 1981. MULTI-SENSOR ANALYSIS OF HYDROLOGIC FEATURES WITH EMPHASIS ON THE SEASAT SAR. Photogrammetric Engineering and Remote Sensing, 47(5):655-664.
Hardaway, G., Gustafson, G. C. and Lichy, D., 1982. CARDINAL EFFECT ON SEASAT IMAGES OF URBAN AREAS. Photogrammetric Engineering and Remote Sensing, 48(3):399-404.
Mackenzie, J. S. and Ringrose, P. S., 1986. USE OF SEASAT SAR IMAGERY FOR GEOLOGICAL MAPPING IN A VOLCANIC TERRAIN – ASKJA-CALDERA, ICELAND. International Journal of Remote Sensing, 7(2):181-194.
Land Applications
McDonough, M. and Martinkaye, P. H. A., 1984. RADARGEOLOGIC INTERPRETATION OF SEASAT IMAGERY OF ICELAND. International Journal of Remote Sensing, 5(2):433-450.
Rast, M., Jaskolla, F. and Arnason, K., 1991. COMPARATIVE DIGITAL ANALYSIS OF SEASAT-SAR AND LANDSAT-TM DATA FOR ICELAND. International Journal of Remote Sensing,12(3):527-544.
Land Applications
Rauste, Y. 1990. INCIDENCE-ANGLE DEPENDENCE IN FORESTED AND NONFORESTED AREAS IN SEASAT SAR DATA. International Journal of Remote Sensing, 11(7):1267-1276.
Land Applications
Rebillard, P. and Ballais, J. L., 1984. SURFICIAL DEPOSITS OF 2 ALGERIAN PLAYAS AS SEEN ON SIR-A, SEASAT AND LANDSAT COREGISTERED DATA. Zeitschrift Fur Geomorphologie, 28(4):483-498.
Sabins, F. F., Blom, R. and Elachi, C., 1980. SEASAT RADAR IMAGE OF SAN-ANDREAS FAULT, CALIFORNIA. AAPG Bulletin-American Association of Petroleum Geologists, 64(5):619-628.
Land Applications
Schultejann, P. A. 1985. STRUCTURAL TRENDS IN BORREGO VALLEY, CALIFORNIA – INTERPRETATIONS FROM SIR-A AND SEASAT-SAR. Photogrammetric Engineering and Remote Sensing, 51(10):1615-1624.
Land Applications
Toll, D. L. 1985. ANALYSIS OF DIGITAL LANDSAT MSS AND SEASAT SAR DATA FOR USE IN DISCRIMINATING LAND COVER AT THE URBAN FRINGE OF DENVER, COLORADO. International Journal of Remote Sensing, 6(7):1209-1229.
Land Applications
Wadge, G. and Dixon, T. H., 1984. A GEOLOGICAL INTERPRETATION OF SEASAT-SAR IMAGERY OF JAMAICA. Journal of Geology, 92(5):561-581.
Land Applications
Wharton, S. W. and Henderson, F. M., 1982. AN OVERVIEW OF THE CHARACTERISTICS OF SEASAT SAR DATA AND ITS APPLICATION TO URBAN LAND-COVER ANALYSIS IN THE NORTHEASTERN UNITED-STATES. Journal of Applied Photographic Engineering, 8(1):63-67.