A New Collaborative Multi-Agent Monte Carlo Simulation Model for Spatial Correlations Air Pollutions Global Risk Assessment

Hassan, Mustafa Hamid and Mostafa, Salama and Mustapha, Aida and Saringat, Mohd Zainuri and Al-rimy, Bander and Saeed, Faisal and Eljial, A. E. M and Jubair, Mohammed Ahmed (2022) A New Collaborative Multi-Agent Monte Carlo Simulation Model for Spatial Correlations Air Pollutions Global Risk Assessment. Sustainability, 14 (1). p. 510. ISSN 2071-1050

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Air pollution risk assessment is complex due to dynamic data change and pollution source distribution. Air quality index concentration level prediction is an effective method of protecting public health by providing the means for an early warning against harmful air pollution. However, air quality index-based prediction is challenging as it depends on several complicated factors resulting from dynamic nonlinear air quality time-series data, such as dynamic weather patterns and the verity and distribution of air pollution sources. Subsequently, some minimal models have incorporated time series-based predicting air quality index at a global level (for a particular city or various cities). These models require interaction between the multiple air pollution sensing sources and additional parameters like wind direction and wind speed. The existing methods in predicting air quality index cannot handle short-term dependencies. These methods also mostly neglect the spatial correlations between the different parameters. Moreover, the assumption of selecting the most recent part of the air quality time series is not valid considering that pollution is cyclic behavior according to various events and conditions due to the high possibility of falling into the trap of local minimum and poor generalization. Therefore, this pa-per proposes a new air pollution global risk assessment (APGRA) model for predicting spatial correlations air quality index risk assessment to address these issues. The APGRA model incorporates autoregressive integrated moving average (ARIMA), Monte-Carlo simulation, and collaborative multi-agent system, and prediction algorithm for reducing air quality index prediction error and processing time. The proposed APGRA model is evaluated based on Malaysia and China real-world air quality datasets. The proposed APGRA model improves the average root mean squared error by 41%, mean and absolute error by 47.10% compared with the conventional ARIMA and ANFIS models.

Item Type: Article
Identification Number: https://doi.org/10.3390/su14010510
27 December 2021Accepted
4 January 2022Published Online
Uncontrolled Keywords: air quality index; air pollution; risk assessment; autoregressive integrated moving average; Monte Carlo simulation; multi-agent system
Subjects: CAH11 - computing > CAH11-01 - computing > CAH11-01-01 - computer science
CAH24 - media, journalism and communications > CAH24-01 - media, journalism and communications > CAH24-01-01 - information services
Divisions: Faculty of Computing, Engineering and the Built Environment > School of Computing and Digital Technology
Depositing User: Faisal Saeed
Date Deposited: 05 Jan 2022 13:57
Last Modified: 05 Jan 2022 13:59
URI: https://www.open-access.bcu.ac.uk/id/eprint/12583

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