Leung, YeeYeeLeungProf. LEUNG Kwong SakWong, Man-HongMan-HongWongMak, TerrenceTerrenceMakCheung, Kwan-YauKwan-YauCheungLo, Leung-YauLeung-YauLoYi, Wei-YingWei-YingYiDong, Yuan-LinYuan-LinDong2023-02-222023-02-222018International Journal of Geographical Information Science,2018, vol. 32(9), pp. 1787-18141365881613658824http://hdl.handle.net/20.500.11861/7420To efficiently and effectively monitor and mitigate air pollution in the urban environment, it is of paramount importance to integrate into a unified whole air pollutant concentration databases coming from different sources including the ground-based stations, mobile sensors, remote sensing, atmospheric-chemical-transport models and social media for the analysis and unraveling of the complex air pollution processes in space and time. This study constructs and implements for the first time a prototype of the fully integrated air pollution decision support system (APDSS) that put together in an integrated manner all relevant multi-scale, multi-type and multi-source data for decision-making on urban air pollution. The prototype contains the main system that handles the multi-source, multi-type and multi-scale databases, queries, visualization and data mining algorithms and the integrated modules that individually and holistically capitalize on the power of the ground-based stations, ground and aerial mobile sensors, satellite-borne remote-sensing technologies, atmospheric-chemical-transport models and social media. It renders a solid scientific foundation and system development methodology for the study of the spatiotemporal air pollution profiles crucial to the mitigation of urban air pollution. Real-life applications of the prototype are employed to illustrate the functionality of the APDSS.enDecision Support SystemGISAir PollutionPeer Reviewed Journal Article10.1080/13658816.2018.1460752