Multitasking Multiobjective Evolutionary Operational Indices Optimization of Beneficiation Processes

Yang, Cuie; Ding, Jinliang; Jin, Yaochu; Wang, Chengzhi; Chai, Tianyou

doi:10.1109/tase.2018.2865593

Cited by 84 publications

(27 citation statements)

References 38 publications

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“…In this real-world application, we are not able to validate the obtained solutions as no "real objective functions" are available for validation. For this reason, we evaluate the search ability of coarse-fine search strategy in the proposed MF-RV by comparing with the fine surrogate and the multiform optimization approach [69], which is the most recent proposed algorithm in solving the operational indices optimization problem. Note that the target accurate model in multiform approach is replaced with RBF for fair comparison.…”

Section: B Optimization Resultsmentioning

confidence: 99%

Off-line Data-driven Multi-objective Optimization: Knowledge Transfer between Surrogates and Generation of Final Solutions

Yang

Ding

Jin

et al. 2020

IEEE Trans. Evol. Computat.

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In off-line data-driven optimization, only historical data is available for optimization, making it impossible to validate the obtained solutions during the optimization. To address these difficulties, this paper proposes an evolutionary algorithm assisted by two surrogates, one coarse model and one fine model. The coarse surrogate aims to guide the algorithm to quickly find a promising sub-region in the search space, whereas the fine one focuses on leveraging good solutions according to the knowledge transferred from the coarse surrogate. Since the obtained Pareto optimal solutions have not been validated using the real fitness function, a technique for generating the final optimal solutions is suggested. All achieved solutions during the whole optimization process are grouped into a number of clusters according to a set of reference vectors. Then, the solutions in each cluster are averaged and outputted as the final solution of that cluster. The proposed algorithm is compared with its three variants and two state-of-the-art off-line datadriven multi-objective algorithms on eight benchmark problems to demonstrate its effectiveness. Finally, the proposed algorithm is successfully applied to an operational indices optimization problem in beneficiation processes.Index Terms-Off-line data-driven optimization; multisurrogate; knowledge transfer; multi-objective evolutionary algorithms.

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Section: B Optimization Resultsmentioning

confidence: 99%

Off-line Data-driven Multi-objective Optimization: Knowledge Transfer between Surrogates and Generation of Final Solutions

Yang

Ding

Jin

et al. 2020

IEEE Trans. Evol. Computat.

Self Cite

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“…Meta-heuristic algorithm has been well known as one of best optimizers for the complex optimization problems. [39][40][41] NP is a new meta-heuristic algorithm introduced by Shi and Olafsson. 42 It has been successfully Index sets: N job index set, N = 1, 2, .…”

Section: Solution Methodsmentioning

confidence: 99%

A meta-heuristic algorithm for integrated optimization of dynamic resource allocation planning and production scheduling in parallel machine system

Wang

2019

Advances in Mechanical Engineering

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With the wide application of advanced information technology and intelligent equipment in the manufacturing system, the decisions of design and operation have become more interdependent and their integration optimization has gained great concerns from the community of operational research recently. This article investigates an optimization problem of integrating dynamic resource allocation and production schedule in a parallel machine environment. A meta-heuristic algorithm, in which heuristic-based partition, genetic-based sampling, promising index calculation, and backtracking strategies are employed, is proposed for solving the investigated integration problem in order to minimize the makespan of the manufacturing system. The experimental results on a set of random-generated test instances indicate that the presented model is effective and the proposed algorithm exhibits the satisfactory performance that outperforms two stateof-the-art algorithms from literature.

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“…In the literature, there exist a lot of works to apply MFEA to tackle real-world problems, such as complex supply chain network management [16], bi-level optimization problem [14], double-pole balancing problem [17], composites manufacturing problem [14,18], branch testing in software engineering [19], cloud computing service composition problem [20], pollution-routing problem [21], operational indices optimization of beneficiation process [22], and time series prediction problem [23].…”

Section: Related Work On Mtomentioning

confidence: 99%

“…In contrast, a smaller value would encourage the exploitation of current solutions and speed up the population convergence. In TMO-MFEA, a larger rmp is used for diversity-related variables to enhance its diversity, while a smaller rmp is designed for convergence-related variables to achieve a better convergence [22,39].…”

Section: Multi-population Evolution Modelmentioning

confidence: 99%

Rigorous Analysis of Multi-Factorial Evolutionary Algorithm as Multi-Population Evolution Model

Wang¹,

Xu²,

Rong³

et al. 2019

IJCIS

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A B S T R A C TMulti-task optimization algorithm is an emergent paradigm which solves multiple self-contained tasks simultaneously. It is thought that multi-factorial evolutionary algorithm (MFEA) can be seen as a novel multi-population algorithm, wherein each population is represented independently and evolved for the selected task only. However, the theoretical and experimental evidence to this conclusion is not very convincing and especially, the coincidence relation between MFEA and multi-population evolution model is ambiguous and inaccurate. This paper aims to make an in-depth analysis of this relationship, and to provide more theoretical and experimental evidence to support the idea. In this paper, we clarify several key issues unsettled to date, and design a novel across-population crossover approach to avoid population drift. Then MFEA and its variation are reviewed carefully in view of multi-population evolution model, and the coincidence relation between them are concluded. MFEA is completely recoded along with this idea and tested on 25 multi-task optimization problems. Experimental results illustrate its rationality and superiority. Furthermore, we analyze the contribution of each population to algorithm performance, which can help us design more efficient multi-population algorithm for multi-task optimization. MTO paradigm [6]. If the optimization tasks happen to bear some commonality or complementarity, then the inclusion of knowledge transfer often leads to significant performance improvements relative to conventional EAs alone.

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Multitasking Multiobjective Evolutionary Operational Indices Optimization of Beneficiation Processes

Cited by 84 publications

References 38 publications

Off-line Data-driven Multi-objective Optimization: Knowledge Transfer between Surrogates and Generation of Final Solutions

Off-line Data-driven Multi-objective Optimization: Knowledge Transfer between Surrogates and Generation of Final Solutions

A meta-heuristic algorithm for integrated optimization of dynamic resource allocation planning and production scheduling in parallel machine system

Rigorous Analysis of Multi-Factorial Evolutionary Algorithm as Multi-Population Evolution Model

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