Using particle-based simplified swarm optimization to solve the cold-standby reliability of the gas turbine industry

IF 1.6 Q2 ENGINEERING, MULTIDISCIPLINARY
Shakuntla Singla, Komalpreet Kaur
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Abstract

Simplified swarm optimization (SSO) and particle swarm optimization (PSO) are two types of modern swarm intelligence techniques that are often used for optimization. In order to identify the most effective system RRAP with a cold-standby strategic plan while aiming to exploit the reliability of the organization, the article discusses a PSSO procedure that combines UM of PSO and Simplified swarm optimization, PSSO is especially impressive in comparison with other recently incorporated algorithms into four popular applications, namely a sequences scheme, a complex organization, a series–parallel system, and an airspeed indicator defense system for a turbine, with extensive experiments conducted on the pretty standard and well-known four benchmarks of reliability-redundancy allocation problems. Finally, the experiment findings show that the particle-based simplified swarm optimization can successfully solution to address the reliability-redundancy allocation (RRAP) issues using the cold-standby method and performs well in terms of organization reliability, even though the best platform consistency is not attained in all four benchmarks and experiment is done using python and Google colab.

Abstract Image

使用基于粒子的简化蜂群优化技术解决燃气轮机行业的低温待机可靠性问题
简化蜂群优化(SSO)和粒子群优化(PSO)是经常用于优化的两种现代蜂群智能技术。为了确定冷备用战略计划中最有效的系统 RRAP,同时以利用组织的可靠性为目标,文章讨论了一种 PSSO 程序,该程序结合了 PSO 和简化蜂群优化的 UM,PSSO 与最近纳入四种流行应用(即序列方案、复杂组织、串并联系统和涡轮机空速指示器防御系统)的其他算法相比,尤其令人印象深刻,文章在可靠性-冗余度分配问题的相当标准和著名的四个基准上进行了大量实验。最后,实验结果表明,基于粒子的简化蜂群优化方法可以成功地利用冷备用方法解决可靠性-冗余性分配(RRAP)问题,并且在组织可靠性方面表现良好,尽管在所有四个基准中都没有达到最佳平台一致性。
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来源期刊
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.
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