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AIRBORNE THERMAL REMOTE SENSING IN URBAN CLIMATE RESEARCH

  1. Title statementAIRBORNE THERMAL REMOTE SENSING IN URBAN CLIMATE RESEARCH [rukopis] / Tomáš Pour
    Additional Variant TitlesLetecké termální snímkování ve výzkumu městského klimatu
    Personal name Pour, Tomáš (dissertant)
    Translated titleAirborne Thermal Remote Sensing in Urban Climate Research
    Issue data2019
    Phys.des.86 pg. (124 979 characters) : il., mapy, grafy, tab. + MicroSD card with USB reader
    NoteVed. práce Vít Voženílek
    Another responsib. Voženílek, Vít, 1965- (thesis advisor)
    Another responsib. Univerzita Palackého. Katedra geoinformatiky (degree grantor)
    Keywords thermal * infrared * remote sensing * urban * climate * thermal * infrared * remote sensing * urban * climate
    Form, Genre disertace dissertations
    UDC (043.3)
    CountryČesko
    Languageangličtina
    Document kindPUBLIKAČNÍ ČINNOST
    TitlePh.D.
    Degree programDoktorský
    Degree programGeografie
    Degreee disciplineGeoinformatika a kartografie
    book

    book

    Kvalifikační práceDownloadedSizedatum zpřístupnění
    00214008-632451178.pdf1055.4 MB03.06.2019
    PosudekTyp posudku
    00214008-ved-750403677.pdfPosudek vedoucího
    00214008-opon-806486524.pdfPosudek oponenta
    Průběh obhajobydatum zadánídatum odevzdánídatum obhajobypřidělená hodnocenítyp hodnocení
    00214008-prubeh-378556849.pdf29.05.201303.06.201928.08.2019S2

    The objective of the doctoral thesis is to to investigate and improve airborne thermal remote sensing in urban climate research. To approach this task, the thesis was divided into 3 sub-objectives. The first sub-objective was to acquire and process a series of thermal datasets of Olomouc city for urban environment research. A flight campaign scheduled on 10th July 2016 was planned. The campaign contained data collection in optical and thermal-infrared wavelengths. After two flights, in the morning and in the afternoon, the data were processed to acquire thermal mosaics of the area of interest. The aim of the second sub-objective was to use the thermal mosaics dataset and self-sufficient descriptive analytical methods. For this task, methods of material sampling, quantile-based typology and the TURN method were used to characterize the area of interest. The third sub-objective was to analyse the dataset and propose its fusion with other data sources to investigate the surface temperature patterns and trends among various land-cover and land-use types. This goal was met using verticality analysis based on buildings dataset, Local Climate Zones approach and the use of European open-data sources. The results of all six methods were described, interpreted and visualised using graphs, diagrams and maps. The TURN method, the LCZ method and the data fusion were found to be a very valuable sources of information about given area. In the last part of the thesis, possible future research and further improvements based on this work is being discussed.The objective of the doctoral thesis is to to investigate and improve airborne thermal remote sensing in urban climate research. To approach this task, the thesis was divided into 3 sub-objectives. The first sub-objective was to acquire and process a series of thermal datasets of Olomouc city for urban environment research. A flight campaign scheduled on 10th July 2016 was planned. The campaign contained data collection in optical and thermal-infrared wavelengths. After two flights, in the morning and in the afternoon, the data were processed to acquire thermal mosaics of the area of interest. The aim of the second sub-objective was to use the thermal mosaics dataset and self-sufficient descriptive analytical methods. For this task, methods of material sampling, quantile-based typology and the TURN method were used to characterize the area of interest. The third sub-objective was to analyse the dataset and propose its fusion with other data sources to investigate the surface temperature patterns and trends among various land-cover and land-use types. This goal was met using verticality analysis based on buildings dataset, Local Climate Zones approach and the use of European open-data sources. The results of all six methods were described, interpreted and visualised using graphs, diagrams and maps. The TURN method, the LCZ method and the data fusion were found to be a very valuable sources of information about given area. In the last part of the thesis, possible future research and further improvements based on this work is being discussed.

Number of the records: 1  

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