Team Collaboration Particle Swarm Optimization and Its Application on Reliability Optimization

Zheng, Bo; Ma, Xin; Zhang, Xiaoqiang; Gao, Huiying

doi:10.2991/ijcis.d.210625.001

Cited by 4 publications

(4 citation statements)

References 43 publications

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“…In order to verify the global optimization ability of the DTPSO proposed in this paper, it will be compared with other swarm intelligence algorithms. A team collaboration PSO (TCPSO) inspired by human team collaboration behavior, 37 a self‐regulating PSO imitating human cognitive psychology, 38 a dynamic neighborhood PSO (DPSO) designed by neighborhood topology, 39 and a multiple agents PSO (MAPSO) integrating with agent technology 40 will compare with DTPSO, these PSO variants have excellent global optimization abilities in dealing with complex and high‐dimensional optimization problems. The basic settings of the PSO variants are as same as those in Section 3.1, for some specific parameter settings, please refer to relevant references listed above.…”

Section: Performance Verification For Psomentioning

confidence: 99%

Direct position updating‐based trying‐mutation particle swarm optimization algorithm and its application on reliability optimization

Zheng

Zhang

et al. 2023

Quality & Reliability Eng

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In order to improve the global optimization of particle swarm optimization (PSO), enhance the performance of PSO in dealing with these complex, highdimensional, multimodal optimization problems, and furthermore, promote the optimization effect in reliability optimization applications, a direct position updating-based trying-mutation PSO (DTPSO) was proposed. In this algorithm, the direct position updating strategy and trying-mutation strategy were designed, which could effectively maintain the population diversity, balance the exploitation and exploration, and increase the probability of obtaining global optimal solution. After being verified and compared by nine complex test functions, the rationality of algorithm design and the excellent global optimization performances were proved. In the reliability optimization, the reliability redundancy allocation and reliability allocation were optimized by different advanced improved algorithms, the comparison results proved the stability and optimization performance of DTPSO. Due to its stable and efficient global optimization performance, it was concluded the proposed DTPSO could provide effective technical support for practical applications such as reliability optimization.

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Section: Performance Verification For Psomentioning

confidence: 99%

Direct position updating‐based trying‐mutation particle swarm optimization algorithm and its application on reliability optimization

Zheng

Zhang

et al. 2023

Quality & Reliability Eng

Self Cite

View full text Add to dashboard Cite

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“…It is capable of addressing high dimensional problems that involve variables and constraints as it enables the generated solutions to conform to the constraints imposed by the optimization problem. [54][55][56] Unfortunately, it also has some disadvantages: algorithm solely relies on the swarm optima and individual optima. 57 (3) It exhibits stochastic behavior, whereby the solutions produced may exhibit significant variability across multiple iterations.…”

Section: Particle Swarm Optimizationmentioning

confidence: 99%

Optimization of polydopamine coating process for poly lactic acid‐based 3D printed bone plates using machine learning approaches

Sharma,

Gupta,

Mudgal

et al. 2023

Polymer Engineering & Sci

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The three‐dimensional (3D) printed poly lactic acid (PLA) bone plates lack mechanical strength, resulting in premature failure. Coating these plates with polydopamine (PDM) forms covalent bonds with the PLA molecular structure, enhancing their mechanical properties. The mechanical strength of the coated bone plates is influenced by infill density, submersion time, shaker speed, and coating solution concentration. However, conducting experiments for each parameter value to achieve maximum biomechanical tensile strength (BTS) and biomechanical flexural strength (BFS) is time‐consuming and costly. Overall, the combination of response surface methodology (RSM) and machine learning (ML) enables determination of the best printing parameters, leading to reduced material waste, personalized bone plates tailored to individual anatomy, improved implant fit, and functionality. Moreover, this approach has the potential to reduce the need for additional surgeries and overall costs. To optimize coating parameters, this study employs RSM and ML techniques, including genetic algorithm (GA), particle swarm optimization (PSO), random search optimization (RSO), and differential evolution (DE). Experimental validation of the optimized process parameters and their corresponding fitness values is carried out using both RSM and ML approaches. The results demonstrate that GA has the closest relationship between experimental and fitness values, followed by DE, RSM, PSO, and RSO.Highlights Direct immersion coating of polydopamine on 3D printed PLA bone plates. Evaluating mechanical strength for bone plates coated at varying parameters. Statistical modeling and optimization of mechanical strength using RSM. Mechanical strength optimization and convergence properties for ML models. Experimental validation of RSM and ML‐based optimization algorithms.

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“…Filter methods may ignore the interrelationships between features, while wrapper methods may lead to high computational costs and are prone to overfitting. 25 Given this, a combined strategy using two-stage feature selection can provide more accurate classification results. [26][27][28][29] Based on existing research, although there have been attempts to extract key information from complex systems, there is still a lack of an effective framework to systematically compare different methods.…”

Section: Introductionmentioning

confidence: 99%

“…However, both approaches have their shortcomings. Filter methods may ignore the interrelationships between features, while wrapper methods may lead to high computational costs and are prone to overfitting 25 . Given this, a combined strategy using two‐stage feature selection can provide more accurate classification results 26–29 …”

Section: Introductionmentioning

confidence: 99%

A hybrid feature selection model for identifying groups of critical elements in aero‐engine assembly

Cheng,

Hu,

et al. 2024

Quality & Reliability Eng

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Aero‐engine assembly has a wide range of indicators, and finding critical assembly elements to guide assembly and troubleshooting is essential in improving the reliability and safety of aero‐engine. In order to identify critical elements in aero‐engine assembly components, this study aims to establish a two‐stage hybrid feature selection model, namely, FSBP approach, which integrated filter method and particle swarm algorithm with Bayesian optimization. Specifically, individual filter feature selection methods are compared to select a relatively effective method to reduce the data dimensions and ensure the quality of the initial subset. Then, the particle swarm algorithm combined with Bayesian optimization obtains a subset of features in the second stage that are more suitable for predictive models with more robust classification prediction capability. The algorithm is successfully applied to real aero‐engine assembly and trial test datasets, and the experimental results show that our proposed two‐stage hybrid feature selection model outperforms other benchmark methods.

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Team Collaboration Particle Swarm Optimization and Its Application on Reliability Optimization

Cited by 4 publications

References 43 publications

Direct position updating‐based trying‐mutation particle swarm optimization algorithm and its application on reliability optimization

Direct position updating‐based trying‐mutation particle swarm optimization algorithm and its application on reliability optimization

Optimization of polydopamine coating process for poly lactic acid‐based 3D printed bone plates using machine learning approaches

A hybrid feature selection model for identifying groups of critical elements in aero‐engine assembly

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