Development and case study of a science-based software platform to support policy making on air quality 被引量：11

Development and case study of a science-based software platform to support policy making on air quality

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摘要 This article describes the development and implementations of a novel software platform that supports real-time, science-based policy making on air quality through a user-friendly interface. The software, RSM-VAT, uses a response surface modeling（RSM） methodology and serves as a visualization and analysis tool（VAT） for three-dimensional air quality data obtained by atmospheric models. The software features a number of powerful and intuitive data visualization functions for illustrating the complex nonlinear relationship between emission reductions and air quality benefits. The case study of contiguous U.S.demonstrates that the enhanced RSM-VAT is capable of reproducing the air quality model results with Normalized Mean Bias 〈 2% and assisting in air quality policy making in near real time. This article describes the development and implementations of a novel software platform that supports real-time, science-based policy making on air quality through a user-friendly interface. The software, RSM-VAT, uses a response surface modeling（RSM） methodology and serves as a visualization and analysis tool（VAT） for three-dimensional air quality data obtained by atmospheric models. The software features a number of powerful and intuitive data visualization functions for illustrating the complex nonlinear relationship between emission reductions and air quality benefits. The case study of contiguous U.S.demonstrates that the enhanced RSM-VAT is capable of reproducing the air quality model results with Normalized Mean Bias 〈 2% and assisting in air quality policy making in near real time.

作者 Yun Zhu Yanwen Lao Carey Jang Chen-Jen Lin Jia Xing Shuxiao Wang Joshua S.Fu Shuang Deng Junping Xie Shicheng Long

机构地区 Guangdong Provincial Key Laboratory of Atmospheric Environment and Pollution Control State Environmental Protection Key Laboratory of Sources and Control of Air Pollution Complex College of Environmental and Energy USEPA/Office of Air Quality Planning & Standards Department of Civil Engineering Department of Civil & Environmental Engineering Chinese Research Academy of Environmental Sciences

出处《Journal of Environmental Sciences》 SCIE EI CAS CSCD 2015年第1期97-107,共11页 环境科学学报（英文版）

基金 Financial and data support for this work is provided by the U.S. Environmental Protection Agency (No. GS-10F-0205T) partly supported by the funding of Guangdong Provincial Key Laboratory of Atmospheric Environment and Pollution Control (No. h2xj D612004 Ш ) the funding of State Environmental Protection Key Laboratory of Sources and Control of Air Pollution Complex (No. SCAPC201308) the project of Atmospheric Haze Collaboration Control Technology Design (No. XDB05030400) from Chinese Academy of Sciences

关键词 Air quality Policy making Response surface modeling Emission control scenarios Data visualization Air quality Policy making Response surface modeling Emission control scenarios Data visualization

分类号 X51-39 [环境科学与工程—环境工程]

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