Optimised Near-Real Time Data Acquisition and Preprocessing of Satellite Data for Disaster Related Rapid Mapping

被引:1
|
作者
Hoja, Danielle [1 ]
Schwinger, Maximilian [1 ]
Wendleder, Anna [1 ]
Loewe, Peter [2 ]
Konstanski, Harald [2 ]
Weichelt, Horst [2 ]
Kiefl, Nadine [3 ]
Janoth, Juergen [3 ]
机构
[1] DLR eV, D-82234 Wessling, Germany
[2] RapidEye AG, D-14476 Brandenburg, Germany
[3] Infoterra GmbH, D-88090 Immenstaad, Germany
来源
PHOTOGRAMMETRIE FERNERKUNDUNG GEOINFORMATION | 2010年 / 06期
关键词
RapidEye; Infoterra; TerraSAR-X; DLR; Rapid Imaging; Rapid Mapping; Rapid Ordering Process;
D O I
10.1127/1432-8364/2010/0065
中图分类号
TP7 [遥感技术];
学科分类号
081102 ; 0816 ; 081602 ; 083002 ; 1404 ;
摘要
In its first part this paper describes exemplarily optimisations of the satellite systems RapidEye and TerraSAR-X. For this purpose a short insight into processes, relevant for data production, will be given. Focus of this will be time constraints typical for disaster related rapid mapping. Optimisations of geometric pre-processing of satellite data are described in a second part of this paper. For this purpose different software packages available for radar and optical data were compared and analysed respectively. Results were as far as possible optimised.
引用
收藏
页码:429 / 438
页数:10
相关论文
共 50 条
  • [41] Near-Real Time Crop Progress Estimation using Remote Sensing in Regions without Ground Survey Data
    Worrall, George R.
    Judge, Jasmeet
    [J]. 2022 IEEE INTERNATIONAL GEOSCIENCE AND REMOTE SENSING SYMPOSIUM (IGARSS 2022), 2022, : 5456 - 5459
  • [42] Assimilation of COST 716 Near-Real Time GPS data in the nonhydrostatic limited area model used at MeteoSwiss
    Guerova, G
    Bettems, JM
    Brockmann, E
    Matzler, C
    [J]. METEOROLOGY AND ATMOSPHERIC PHYSICS, 2006, 91 (1-4) : 149 - 164
  • [43] Assimilation of COST 716 Near-Real Time GPS data in the nonhydrostatic limited area model used at MeteoSwiss
    G. Guerova
    J.-M. Bettems
    E. Brockmann
    Ch. Matzler
    [J]. Meteorology and Atmospheric Physics, 2006, 91 : 149 - 164
  • [44] Real Time Standalone Data Acquisition System for Environmental Data
    Mutha, Vasant Raj
    Kumar, Narendra
    Pareek, Parikshit
    [J]. PROCEEDINGS OF THE FIRST IEEE INTERNATIONAL CONFERENCE ON POWER ELECTRONICS, INTELLIGENT CONTROL AND ENERGY SYSTEMS (ICPEICES 2016), 2016,
  • [45] Comment on "Identification of the IMF sector structure in near-real time by ground magnetic data" by Janzhura and Troshichev (2011)
    Stauning, Peter
    [J]. ANNALES GEOPHYSICAE, 2021, 39 (02) : 369 - 377
  • [46] Development Of Processing Chains For Rapid Mapping With Satellite Data
    Buehler, Yves A.
    Kellenberger, Tobias W.
    [J]. GEOMATICS SOLUTIONS FOR DISASTER MANAGEMENT, 2007, : 49 - 60
  • [47] CLOUD-BASED REAL TIME DATA ACQUISITION IN IoT ENVIRONMENT FOR POST DISASTER MANAGEMENT
    Choksi, Meghavi
    Zaveri, Mukesh A.
    Kumar, J. Sathish
    Pandey, Saurabh K.
    [J]. 2018 9TH INTERNATIONAL CONFERENCE ON COMPUTING, COMMUNICATION AND NETWORKING TECHNOLOGIES (ICCCNT), 2018,
  • [48] HydroGFD3.0 (Hydrological Global Forcing Data): a 25 km global precipitation and temperature data set updated in near-real time
    Berg, Peter
    Almen, Fredrik
    Bozhinova, Denica
    [J]. EARTH SYSTEM SCIENCE DATA, 2021, 13 (04) : 1531 - 1545
  • [49] Near-real time retrievals of land surface temperature within the MODIS Rapid Response System
    Pinheiro, A. C. T.
    Descloitres, J.
    Privette, J. L.
    Susskind, J.
    Iredell, L.
    Schmaltz, J.
    [J]. REMOTE SENSING OF ENVIRONMENT, 2007, 106 (03) : 326 - 336
  • [50] REAL-TIME DATA ACQUISITION IN SETI
    BACKUS, PR
    JORDAN, JC
    HARPER, DG
    [J]. ACTA ASTRONAUTICA, 1992, 26 (3-4) : 169 - 172
12345