CORRECTION OF ATMOSPHERIC EFFECTS OF SATELLITE REMOTE-SENSING DATA (LANDSAT MSS-NOAA AVHRR) FOR SURFACE CANOPY INVESTIGATIONS

被引:6
|
作者
FERENCZ, C
TARCSAI, G
LICHTENBERGER, J
机构
[1] Geophysical Department, Eotvos University, Budapest, H-1083
来源
INTERNATIONAL JOURNAL OF REMOTE SENSING | 1993年 / 14卷 / 18期
关键词
D O I
10.1080/01431169308904455
中图分类号
TP7 [遥感技术];
学科分类号
081102 ; 0816 ; 081602 ; 083002 ; 1404 ;
摘要
A new correction method for atmospheric effects in Landsat-MSS and NOAA AVHRR data is presented which uses only the remotely-sensed multispectral data. The method is based on a new quasi-single-variable radiative transfer model, and as a first step we assumed that the surface is covered by vegetation. For Landsat-MSS data the method was developed for the tasselled cap indices using known empirical relationships among them. For NOAA AVHRR data 'tasselled cap-like' indices and the average reflectance of the average canopy in the visible band known from Landsat-MSS data were used. The method was used in yield forecasting project in north-eastern part of Hungary and provided a significant enhancement in the quality of remotely sensed data.
引用
收藏
页码:3417 / 3431
页数:15
相关论文
共 50 条
  • [21] Evaluation of atmospheric correction methods for low to high resolutions satellite remote sensing data
    Nazeer, Majid
    Ilori, Christopher Olayinka
    Bilal, Muhammad
    Nichol, Janet Elizabeth
    Wu, Weicheng
    Qiu, Zhongfeng
    Gayene, Bijoy Krishna
    ATMOSPHERIC RESEARCH, 2021, 249
  • [22] REMOTE SENSING FOR URBAN TREE CANOPY CHANGE DETECTION WITH LANDSAT SATELLITE DATA IN NNAMDI AZIKIWE UNIVERSITY AWKA - NIGERIA
    Ogbodo, John A.
    Obimdike, Loretta M.
    Benison, Yason
    INDONESIAN JOURNAL OF FORESTRY RESEARCH, 2020, 7 (02) : 99 - 112
  • [23] Remote-sensing constraints on South America fire traits by Bayesian fusion of atmospheric and surface data
    Bloom, A. Anthony
    Worden, John
    Jiang, Zhe
    Worden, Helen
    Kurosu, Thomas
    Frankenberg, Christian
    Schimel, David
    GEOPHYSICAL RESEARCH LETTERS, 2015, 42 (04) : 1268 - 1274
  • [24] ATMOSPHERIC CORRECTION FOR THE SEA-SURFACE TEMPERATURE USING NOAA-7 AVHRR AND METEOSAT-2 INFRARED DATA
    HO, D
    ASEM, A
    DESCHAMPS, PY
    INTERNATIONAL JOURNAL OF REMOTE SENSING, 1986, 7 (10) : 1323 - 1333
  • [25] Mapping sediment-laden sea ice in the Arctic using AVHRR remote-sensing data: Atmospheric correction and determination of reflectances as a function of ice type and sediment load
    Huck, Petra
    Light, Bonnie
    Eicken, Hajo
    Haller, Michael
    REMOTE SENSING OF ENVIRONMENT, 2007, 107 (03) : 484 - 495
  • [26] The Application of 6S model for Landsat Atmospheric Correction of Remote Sensing Data in Retrieval Vegetation Index
    Wang, Lei
    Song, Nai-ping
    EPLWW3S 2011: 2011 INTERNATIONAL CONFERENCE ON ECOLOGICAL PROTECTION OF LAKES-WETLANDS-WATERSHED AND APPLICATION OF 3S TECHNOLOGY, VOL 1, 2011, : 383 - 387
  • [27] Adjacency Effect in the Atmospheric Correction of Satellite Remote Sensing Data: Evaluation of the Influence of Aerosol Extinction Profiles
    Mitsuo Minomura
    Hiroaki Kuze
    Nobuo Takeuchi
    Optical Review, 2001, 8 : 133 - 141
  • [28] Adjacency effect in the atmospheric correction of satellite remote sensing data: Evaluation of the influence of aerosol extinction profiles
    Minomura, M
    Kuze, H
    Takeuchi, N
    OPTICAL REVIEW, 2001, 8 (02) : 133 - 141
  • [29] An Evaluation of Satellite Remote Sensing Data Products for Land Surface Hydrology: Atmospheric Infrared Sounder
    Ferguson, Craig R.
    Wood, Eric F.
    JOURNAL OF HYDROMETEOROLOGY, 2010, 11 (06) : 1234 - 1262
  • [30] Atmospheric correction of Landsat ETM plus remote sensing data using 6S code and its validation
    Yang, Xiaofeng
    Wen, Xingping
    APPLIED MECHANICS AND MECHANICAL ENGINEERING, PTS 1-3, 2010, 29-32 : 2365 - +
12345