基于蚁群优化和粒子群优化的梁结构反振动损伤评估技术对比研究

Aditi Majumdar, Bharadwaj Nanda
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引用次数: 1

摘要

在过去的几年里,利用振动数据对大型复杂结构进行损伤评估的群体智能已经得到了广泛的应用。现有文献表明,“蚁群优化”(ACO)和“粒子群优化”(PSO)主要用于解决复杂工程问题,包括损伤识别和量化问题。基于振动的损伤识别算法的时间要求和精度取决于软计算技术的早期探索和后期开发能力。然而,在这些基础上,没有任何文献可以比较算法。在本研究中,利用固有频率变化构造一个逆问题,然后使用蚁群算法和粒子群算法求解。将该算法应用于简支梁和悬臂梁结构的单损伤和多损伤识别。研究发现,基于蚁群算法和基于粒子群算法都能在有限的迭代次数内准确地检测和量化损伤。然而,基于蚁群算法具有较好的探索能力,能够比基于粒子群算法更快地识别出近最优区域,而粒子群算法具有较好的开发能力,在迭代后期能够比基于蚁群算法提供更好的损伤量化。此外,基于粒子群的算法在较短的时间内达到所需的精度水平。这些算法所需的时间与损伤数和支撑条件无关。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
A Comparative Study on Inverse Vibration Based Damage Assessment Techniques in Beam Structure Using Ant Colony Optimization and Particle Swarm Optimization
Use of swarm intelligence has proliferated over previous couple of years for damage assessment in large and complex structures using vibration data. Available literatures shows ‘ant colony optimization’ (ACO) and ‘particle swarm optimization’ (PSO) are predominantly used for solving complex engineering problems including damage identification and quantification problems. The time requirement and accuracy of the vibration based damage identification algorithms depends on early exploration and late exploitation capabilities of soft computing techniques. However, there are not any literature available comparing algorithms on these bases. In the current study, an inverse problem is constructed using the natural frequency changes which is then solved using ACO and PSO algorithms. The algorithm is run for identification of single and multiple damages in simple support and cantilever beam structures. It's found that, both ACO and PSO based algorithms are capable of detecting and quantifying the damage accurately within the limited number of iterations. However, ACO based algorithm by virtue of its good exploration capability is able to identify near optimal region faster than PSO based algorithm, whereas PSO algorithm has good exploitation capability and hence able to provide better damage quantification than ACO algorithm at latter stages of iteration. Further, PSO based algorithm takes less time to reach at required accuracy level. It is also observed that, the time required for these algorithms are independent of numbers of damage and support conditions.
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