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    A GIS-CA Model for Planning Bikeways upon the Footpath Network

    New search for: Xu Zhao
    New search for: Jie Zhang
    New search for: Ning Zhang
    New search for: Yiik Diew Wong
    New search for: Yufang Zhou
    New search for: Meng Meng

    This study proposes a geographic information system (GIS)-based cellular automata (CA) model, which is designed for planning bikeways upon existing footpath networks within an urban area. The CA model was developed based on a GIS platform as a visual interface whereby spatiotemporal characteristics and spatial processing can be combined in a highly effective way. The host value of each CA cell is conditioned upon four indicator variables, namely cycling demand level, land-use nature, social value, and traffic safety. This model gives traffic planners a quick and intuitive framework to develop cycling facilities under limited land resources. A model prototype has been developed in a common desktop GIS and applied to a mid-sized rapidly developing area in Singapore.

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    A GIS-CA Model for Planning Bikeways upon the Footpath Network

    New search for: Xu Zhao
    New search for: Jie Zhang
    New search for: Ning Zhang
    New search for: Yiik Diew Wong
    New search for: Yufang Zhou
    New search for: Meng Meng

    This study proposes a geographic information system (GIS)-based cellular automata (CA) model, which is designed for planning bikeways upon existing footpath networks within an urban area. The CA model was developed based on a GIS platform as a visual interface whereby spatiotemporal characteristics and spatial processing can be combined in a highly effective way. The host value of each CA cell is conditioned upon four indicator variables, namely cycling demand level, land-use nature, social value, and traffic safety. This model gives traffic planners a quick and intuitive framework to develop cycling facilities under limited land resources. A model prototype has been developed in a common desktop GIS and applied to a mid-sized rapidly developing area in Singapore.

    Access

    Download

    A GIS-CA Model for Planning Bikeways upon the Footpath Network

    New search for: Xu Zhao
    New search for: Jie Zhang
    New search for: Ning Zhang
    New search for: Yiik Diew Wong
    New search for: Yufang Zhou
    New search for: Meng Meng

    This study proposes a geographic information system (GIS)-based cellular automata (CA) model, which is designed for planning bikeways upon existing footpath networks within an urban area. The CA model was developed based on a GIS platform as a visual interface whereby spatiotemporal characteristics and spatial processing can be combined in a highly effective way. The host value of each CA cell is conditioned upon four indicator variables, namely cycling demand level, land-use nature, social value, and traffic safety. This model gives traffic planners a quick and intuitive framework to develop cycling facilities under limited land resources. A model prototype has been developed in a common desktop GIS and applied to a mid-sized rapidly developing area in Singapore.

    Access

    Download

    Access

    Download

    Page navigation

    Document information
    Similar titles

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    Document information
    Title:

    A GIS-CA Model for Planning Bikeways upon the Footpath Network

    Contributors:

    Xu Zhao (author) / Jie Zhang (author) / Ning Zhang (author) / Yiik Diew Wong (author) / Yufang Zhou (author) / Meng Meng (author)

    Published in:

    Sustainability, Vol 13, Iss 16, p 8926 (2021)

    Publication date:

    2021

    ISSN:

    2071-1050

    DOI:

    https://doi.org/10.3390/su13168926

    Type of media:

    Article (Journal)

    Type of material:

    Electronic Resource

    Language:

    Unknown

    Keywords:

    bikeway network planning , bike-sharing scheme , geographic information system , cellular automata model , Environmental effects of industries and plants , TD194-195 , Renewable energy sources , TJ807-830 , Environmental sciences , GE1-350

    Metadata by DOAJ is licensed under ​CC BY-SA 1.0

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