THE ASSESSMENT OF OPERATIONAL CAPABILITY OF THE SPACE-BASED HYPERSPECTRAL COMPLEX

被引:0
|
作者
Zotov, Sergey A. [1 ]
Dmitriev, Y., V [1 ]
Shibanov, Sergey Y. [1 ]
Kondranin, Timofey, V [1 ]
Polyakov, Igor N. [1 ]
Zotova, Anastasia G. [1 ]
机构
[1] MIPT, Phystech Sch Aerosp Technol, 9 Inst Skiy, Dolgoprudnyi 141701, Moscow Region, Russia
来源
FIRST IAA/AAS SCITECH FORUM ON SPACE FLIGHT MECHANICS AND SPACE STRUCTURES AND MATERIALS | 2020年 / 170卷
关键词
D O I
暂无
中图分类号
V [航空、航天];
学科分类号
08 ; 0825 ;
摘要
The goal of the work is to develop method for the assessment of operational capability of the space -based hyperspectral complex (HSC). Representation of the operational capability of remote sensing instrument during the problem of thematic processing solution let us make a conclusion about the advisability of its inclusion in space mission. It is expected to assess operational capability using the statistic data received with the help of imitational method. In this work the results of the method's usage at the example of developed HSC are given. The HSC is going to be based on the International Space Station (ISS).
引用
收藏
页码:561 / 572
页数:12
相关论文
共 50 条
  • [21] Space-based hyperspectral pipeline monitoring launches Q2 2023
    Weaver, R. Peter
    OIL & GAS JOURNAL, 2023, 121 (03) : 44 - 51
  • [22] Representation Space-Based Discriminative Graph Construction for Semisupervised Hyperspectral Image Classification
    Shao, Yuanjie
    Sang, Nong
    Gao, Changxin
    IEEE SIGNAL PROCESSING LETTERS, 2018, 25 (01) : 35 - 39
  • [23] Operational Capability Assessment for the NA-GS Hyperspectral Sensor Using Simulation and Statistical Modeling
    Zotov, S. A.
    Dmitriev, E. V.
    Shibanov, S. U.
    Kozoderov, V. V.
    Donskoy, S. A.
    IZVESTIYA ATMOSPHERIC AND OCEANIC PHYSICS, 2019, 55 (09) : 1457 - 1464
  • [24] Operational Capability Assessment for the NA-GS Hyperspectral Sensor Using Simulation and Statistical Modeling
    S. A. Zotov
    E. V. Dmitriev
    S. U. Shibanov
    V. V. Kozoderov
    S. A. Donskoy
    Izvestiya, Atmospheric and Oceanic Physics, 2019, 55 : 1457 - 1464
  • [25] Space-based surveillance and the role of SAR for operational oil slick detection and monitoring
    Chesworth, S
    Engel, P
    OIL AND HYDROCARBON SPILLS III: MODELLING, ANALYSIS AND CONTROL, 2002, 11 : 415 - 425
  • [26] Mission planning for space-based surveillance with the space-based visible sensor
    Burnham, WF
    Morton, FE
    Sridharan, R
    Viggh, HEM
    Wiseman, AJ
    Zollinger, GR
    JOURNAL OF GUIDANCE CONTROL AND DYNAMICS, 2000, 23 (01) : 165 - 169
  • [27] Thorough Exploration of Complex Environments with a Space-Based Potential Field
    Kenealy, Alina
    Primiano, Nicholas
    Keyes, Alex
    Lyons, Damian M.
    INTELLIGENT ROBOTS AND COMPUTER VISION XXXII: ALGORITHMS AND TECHNIQUES, 2015, 9406
  • [28] An economic assessment of space solar power as a source of electricity for space-based activities
    Macauley, MK
    Davis, JF
    SPACE POLICY, 2002, 18 (01) : 45 - 55
  • [29] Space-based detectors
    A. Sesana
    W. J. Weber
    C. J. Killow
    M. Perreur-Lloyd
    D. I. Robertson
    H. Ward
    E. D. Fitzsimons
    J. Bryant
    A. M. Cruise
    G. Dixon
    D. Hoyland
    D. Smith
    J. Bogenstahl
    P. W. McNamara
    R. Gerndt
    R. Flatscher
    G. Hechenblaikner
    M. Hewitson
    O. Gerberding
    S. Barke
    N. Brause
    I. Bykov
    K. Danzmann
    A. Enggaard
    A. Gianolio
    T. Vendt Hansen
    G. Heinzel
    A. Hornstrup
    O. Jennrich
    J. Kullmann
    S. Møller-Pedersen
    T. Rasmussen
    J. Reiche
    Z. Sodnik
    M. Suess
    M. Armano
    T. Sumner
    P. L. Bender
    T. Akutsu
    B. S. Sathyaprakash
    General Relativity and Gravitation, 2014, 46
  • [30] SPACE-BASED RADIOASTRONOMY
    BAUDRY, A
    WILKINSON, PN
    RECHERCHE, 1988, 19 (205): : 1440 - 1446
12345