Adaptive-neuro fuzzy inference trained with PSO for estimating the concentration and severity of sulfur dioxiderelease

IF 1.6 Q2 ENGINEERING, MULTIDISCIPLINARY

International Journal of System Assurance Engineering and Management Pub Date : 2024-04-20 DOI:10.1007/s13198-024-02336-5

Mourad Achouri, Youcef Zennir, Cherif Tolba, Fares Innal, Chaima Bensaci, Yiliu Liu

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Abstract

The main purpose of this study is to propose a decision support system that deals with the uncertainties in a model of atmospheric dispersion and in meteorological data (speed and direction of wind), which may negatively affect the model accuracy. This later helps the safety agencies in making decisions and allocating necessary materials and human resources to handle potential disastrous events. In order to investigate the aforementioned issues and provide a more reliable data we propose the adaptive Neuro-Fuzzy inference (ANFIS) system enhanced by the mean particle swarm optimization (PSO) to predict the concentration of Sulfur Dioxide release in the atmosphere. This method takes the advantages of fuzzy logic system to address the uncertainties and the ability of neural network to learn from the data. Furthermore our study attempts to estimate the severity index of the released material with the help of fuzzy logic. The result of our study shows that the presented method is successfully applied and it can be a powerful alternative to deal with Sulfur Dioxide release.

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利用 PSO 训练自适应神经模糊推理，估算二氧化硫释放的浓度和严重程度

本研究的主要目的是提出一种决策支持系统，用于处理大气扩散模型和气象数据（风速和风向）中的不确定性，这些不确定性可能会对模型的准确性产生负面影响。这将有助于安全机构做出决策，并分配必要的物资和人力资源来处理潜在的灾难性事件。为了解决上述问题并提供更可靠的数据，我们提出了自适应神经模糊推理（ANFIS）系统，该系统由平均粒子群优化（PSO）增强，用于预测大气中二氧化硫的释放浓度。该方法利用模糊逻辑系统的优势来解决不确定性问题，并利用神经网络从数据中学习的能力。此外，我们的研究还尝试在模糊逻辑的帮助下估算释放物质的严重程度指数。我们的研究结果表明，所提出的方法得到了成功应用，可以成为处理二氧化硫释放问题的有力替代方法。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

International Journal of System Assurance Engineering and Management ENGINEERING, MULTIDISCIPLINARY-

CiteScore

4.30

自引率

10.00%

发文量

252

期刊介绍： This Journal is established with a view to cater to increased awareness for high quality research in the seamless integration of heterogeneous technologies to formulate bankable solutions to the emergent complex engineering problems. Assurance engineering could be thought of as relating to the provision of higher confidence in the reliable and secure implementation of a system’s critical characteristic features through the espousal of a holistic approach by using a wide variety of cross disciplinary tools and techniques. Successful realization of sustainable and dependable products, systems and services involves an extensive adoption of Reliability, Quality, Safety and Risk related procedures for achieving high assurancelevels of performance; also pivotal are the management issues related to risk and uncertainty that govern the practical constraints encountered in their deployment. It is our intention to provide a platform for the modeling and analysis of large engineering systems, among the other aforementioned allied goals of systems assurance engineering, leading to the enforcement of performance enhancement measures. Achieving a fine balance between theory and practice is the primary focus. The Journal only publishes high quality papers that have passed the rigorous peer review procedure of an archival scientific Journal. The aim is an increasing number of submissions, wide circulation and a high impact factor.