Generation of geometrically and radiometrically terrain corrected ScanSAR images

被引:0
|
作者
Löw, A [1 ]
Mauser, W [1 ]
机构
[1] Univ Munich, Dept Earth & Environm Sci, Sect Geog, D-80539 Munich, Germany
来源
IGARSS 2003: IEEE INTERNATIONAL GEOSCIENCE AND REMOTE SENSING SYMPOSIUM, VOLS I - VII, PROCEEDINGS: LEARNING FROM EARTH'S SHAPES AND SIZES | 2003年
关键词
SAR geocoding; ScanSAR; ENVISAT; RADARSAT; radiometric correction; backscattering coefficient; calibration;
D O I
暂无
中图分类号
P [天文学、地球科学];
学科分类号
07 ;
摘要
Inclined surface topography diminishes the geometric and radiometric quality of synthetic aperture radar imagery. The correction of these effects becomes indispensable when quantitative image analysis is performed with respect to the derivation of geo- and biophysical parameters. Due to their spatial extent and frequent availability, ScanSAR image products extend the operative range of microwave imagery and have a high potential for numerous operational applications over larger areas. The study presents a procedure for a pre-operational terrain correction of ScanSAR imagery as acquired by RADARSAT and ENVISAT ASAR.
引用
收藏
页码:3995 / 3997
页数:3
相关论文
共 50 条
  • [1] Generation of geometrically and radiometrically terrain corrected SAR image products
    Loew, Alexander
    Mauser, Wolfram
    [J]. REMOTE SENSING OF ENVIRONMENT, 2007, 106 (03) : 337 - 349
  • [2] Planned radiometrically calibrated and geometrically corrected products of lunar high-resolution Terrain Camera on SELENE
    Haruyama, J.
    Ohtake, M.
    Matsunaga, T.
    Morota, T.
    Yokota, Y.
    Honda, C.
    Hirata, N.
    Demura, H.
    Iwasaki, A.
    Nakamura, R.
    Kodama, S.
    [J]. ADVANCES IN SPACE RESEARCH, 2008, 42 (02) : 310 - 316
  • [3] PROCESSING ERROR REDUCTION FACTORS IN THE GENERATION OF GEOMETRICALLY CORRECTED NOAA AVHRR VEGETATION INDEX IMAGES
    GUPTA, RK
    [J]. INTERNATIONAL JOURNAL OF REMOTE SENSING, 1992, 13 (03) : 515 - 526
  • [4] Generation of geolocated and radiometrically corrected true reflectance surfaces in the visible portion of the electromagnetic spectrum over large bodies of water using images from a sUAS
    Arango, Juan G.
    Holzbauer-Schweitzer, Brandon K.
    Nairn, Robert W.
    Knox, Robert C.
    [J]. JOURNAL OF UNMANNED VEHICLE SYSTEMS, 2020, 8 (03) : 172 - 185
  • [5] Detection and spatial analysis of selective logging with geometrically corrected Landsat images
    Anwar, Salma
    Stein, Alfred
    [J]. INTERNATIONAL JOURNAL OF REMOTE SENSING, 2012, 33 (24) : 7820 - 7843
  • [6] Evaluating the Accuracy of Geometrically Corrected MR Images for Intracranial Brain Tumor Radiotherapy
    Bagherimofidi, S.
    Yang, C.
    Duggar, W.
    Kanakamedala, M.
    Fatemi, A.
    [J]. MEDICAL PHYSICS, 2019, 46 (06) : E391 - E392
  • [7] Improved forest change detection with terrain illumination corrected Landsat images
    Tan, Bin
    Masek, Jeffrey G.
    Wolfe, Robert
    Gao, Feng
    Huang, Chengquan
    Vermote, Eric F.
    Sexton, Joseph O.
    Ederer, Greg
    [J]. REMOTE SENSING OF ENVIRONMENT, 2013, 136 : 469 - 483
  • [8] ScanSAR Interferometry for land use applications and terrain deformation
    Wiesmann, A.
    Werner, C.
    Santoro, M.
    Wegmueller, U.
    Strozzi, T.
    [J]. 2006 IEEE INTERNATIONAL GEOSCIENCE AND REMOTE SENSING SYMPOSIUM, VOLS 1-8, 2006, : 3103 - 3106
  • [9] A NEW SCALLOPING FILTER ALGORITHM FOR SCANSAR IMAGES
    Romeiser, Roland
    Horstmann, Jochen
    Graber, Hans
    [J]. 2010 IEEE INTERNATIONAL GEOSCIENCE AND REMOTE SENSING SYMPOSIUM, 2010, : 4079 - 4082
  • [10] A Descalloping Postprocessor for ScanSAR Images of Ocean Scenes
    Romeiser, Roland
    Horstmann, Jochen
    Caruso, Michael J.
    Graber, Hans C.
    [J]. IEEE TRANSACTIONS ON GEOSCIENCE AND REMOTE SENSING, 2013, 51 (06): : 3259 - 3272
12345