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Exploiting Earth Observation in Sustainable Urban Planning & Management (GEOURBAN)

Research Project
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01.01.2012
 - 31.12.2013

Sustainable urban planning and management increasingly demands innovative concepts and techniques to obtain up-to-date and area-wide information on the characteristics and development of the urban system. The increasing availability of Earth Observation (EO) technologies has provided new opportunities for a wide range of urban applications, such as mapping and monitoring of the urban environment, socio-economic estimations, characterization of urban climate, analysis of regional and global impacts and urban security and emergency preparedness. However, a gap exists between the research-focused results offered by the urban EO community and the application of these data and products by urban planners and decision makers. Recently, however, increasing attention is being directed to bridge this gap. To this end, the main objective of the GEOURBAN (ExploitinG Earth Observation in sUstainable uRBan plAnning & maNagement) project is to bridge the gap between EO scientists and urban planners by demonstrating the ability of current and future EO systems to depict parameters of urban structure and urban environmental quality over large areas at detailed level. The innovative potential of the project lies in the development of a web-based information system which reflects the multidimensional nature of urban planning and management, as operationalized in intelligible and transferable indicators which are easily understood and applicable by a non-scientific public. Three cities with different typologies and planning perspectives are included as case studies: Tyumen (Russia), Tel-Aviv (Israel) and Basel (Switzerland). In order to develop a method that will be welcomed by local governments, the project will use a Community of Practice (CoP) approach, which means that in the case studies, local stakeholders and scientists of the GEOURBAN project will meet on a regular basis in order to learn from each other. One of the main purposes of the CoP is to acknowledge the different stakeholders' perceptions into the indicator development. The EO data is the main input for GEOURBAN indicators. State-of-the-art EO analysis methods will be used to calculate products from raw data. The information system will be developed in an iterative procedure. User requirements will lead to EO-based indicators, as well as to specifications for the system design. The consortium will release several versions of the system during its development exercise. Since it will be a web-based tool, the end-users will be able to evaluate it online and provide their feedback. The consortium will take into account the end-user suggestions to develop the next version of the system. The final version will be available during the demonstration event to be organized by the end of the project.

Publications

Chrysoulakis, Nektarios et al. (2014) ‘A Conceptual List of Indicators for Urban Planning and Management Based on Earth Observation’, ISPRS International Journal of Geo-Information, 3(3), pp. 980–1002. Available at: https://doi.org/10.3390/ijgi3030980.

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Parlow, Eberhard, Vogt, Roland and Feigenwinter, Christian (2014) ‘The urban heat island of Basel - seen from different perspectives’, Die Erde, 145(1-2), pp. 96–110.

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Chrysoulakis, Nektarios et al. (2013) ‘Rolʹ distancionnogo zondirovanija v planirovanii i upravlenii ustojčivym razvitiem territorij na primere GEOURBAN’, Upravlenie razvitiem territorii [= Urban planning management], 1, pp. 54–58.

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Esch, Thomas et al. (2013) ‘Exploiting earth observation in sustainable urban planning and management - the GEOURBAN project’. IEEE Explore: IEEE Explore. Available at: https://doi.org/10.1109/jurse.2013.6550660.

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Marconcini, Mattia et al. (2013) ‘Towards EO-based sustainable urban planning and management’. IEEE: IEEE. Available at: https://doi.org/10.1109/igarss.2013.6723778.

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Feigenwinter, Christian, Parlow, Eberhard and Damm, Alexander (2012) ‘Urban subsurface heat flux derived from APEX imaging spectroscopy data’. IAUC: IAUC.

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Members (2)

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Eberhard Parlow

Principal Investigator
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Christian Feigenwinter

Co-Investigator