Application of a Hybrid Improved Particle Swarm Algorithm for Prediction of Cutting Energy Consumption in CNC Machine Tools

IF 2.5 3区计算机科学 Q2 AUTOMATION & CONTROL SYSTEMS

International Journal of Control Automation and Systems Pub Date : 2024-05-29 DOI:10.1007/s12555-022-0784-2

Jidong Du, Yan Wang, Zhicheng Ji

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引用次数: 0

Abstract

Estimation and analysis of energy consumption for machine tool is the basis of energy efficiency improvement. To improve the accuracy of ELM algorithm in CNC machine tool energy consumption prediction, a prediction method based on an improved particle swarm optimization (CAPSO) algorithm and an extreme learning machine (ELM) is proposed. The contribution of the algorithm includes the following three aspects. First, sobol sequence is used to initialize the PSO population to make distribution of initial population more even in solution space. Second, the center wanders and boundary neighborhood updates strategy are used to improve the population quality and convergence rate of PSO. Then, to avoid the optimal local solution, the adaptive inertia weight is introduced to achieve the stochastic perturbation of the population. The performance of the algorithm is tested by ten benchmark function, indicating that the CAPSO ensures the search accuracy and improves the algorithm’s convergence rate. Finally, the CAPSO algorithm is used to optimize the weights and thresholds of an ELM, and the CAPSO-ELM cutting energy consumption prediction model is established. Case analysis and comparative experiments show that the stability, prediction accuracy and generalization ability of CAPSO-ELM model are better than those of other models.

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应用混合改进型粒子群算法预测数控机床的切削能耗

机床能耗的估算和分析是提高能效的基础。为了提高 ELM 算法在数控机床能耗预测中的精度，提出了一种基于改进粒子群优化（CAPSO）算法和极限学习机（ELM）的预测方法。该算法的贡献包括以下三个方面。首先，使用 Sobol 序列初始化 PSO 群体，使初始群体在解空间的分布更加均匀。其次，采用中心游走和边界邻域更新策略来提高种群质量和 PSO 的收敛速度。然后，为了避免最优局部解，引入了自适应惯性权重来实现种群的随机扰动。通过十个基准函数对算法的性能进行了测试，结果表明 CAPSO 确保了搜索精度并提高了算法的收敛速度。最后，利用 CAPSO 算法优化了 ELM 的权值和阈值，并建立了 CAPSO-ELM 切割能耗预测模型。实例分析和对比实验表明，CAPSO-ELM 模型的稳定性、预测精度和泛化能力均优于其他模型。

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来源期刊

International Journal of Control Automation and Systems 工程技术-自动化与控制系统

CiteScore

5.80

自引率

21.90%

发文量

343

审稿时长

8.7 months

期刊介绍： International Journal of Control, Automation and Systems is a joint publication of the Institute of Control, Robotics and Systems (ICROS) and the Korean Institute of Electrical Engineers (KIEE). The journal covers three closly-related research areas including control, automation, and systems. The technical areas include Control Theory Control Applications Robotics and Automation Intelligent and Information Systems The Journal addresses research areas focused on control, automation, and systems in electrical, mechanical, aerospace, chemical, and industrial engineering in order to create a strong synergy effect throughout the interdisciplinary research areas.