Graph-Supported Dynamic Algorithm Configuration for Multi-Objective Combinatorial Optimization

Robbert Reijnen; Yaoxin Wu; Zaharah Bukhsh; Yingqian Zhang

Graph-Supported Dynamic Algorithm Configuration for Multi-Objective Combinatorial Optimization

Robbert Reijnen
, Yaoxin Wu (Corresponderende auteur)
, Zaharah Bukhsh
, Yingqian Zhang

Onderzoeksoutput: Hoofdstuk in Boek/Rapport/Congresprocedure › Conferentiebijdrage › Academic › peer review

3 Citaten (Scopus)

108 Downloads (Pure)

Samenvatting

Deep reinforcement learning (DRL) has been widely used for dynamic algorithm configuration, particularly in evolutionary computation, which benefits from the adaptive update of parameters during the algorithmic execution. However, applying DRL to algorithm configuration for multi-objective combinatorial optimization (MOCO) problems remains relatively unexplored. This paper presents a novel graph neural network (GNN) based DRL to configure multi-objective evolutionary algorithms. We model the dynamic algorithm configuration as a Markov decision process, representing the convergence of solutions in the objective space by a graph, with their embeddings learned by a GNN to enhance the state representation. Experiments on diverse MOCO challenges indicate that our method outperforms traditional and DRL-based algorithm configuration methods in terms of efficacy and adaptability. It also exhibits advantageous generalizability across objective types and problem sizes, and applicability to different evolutionary computation methods.

Originele taal-2	Engels
Titel	Proceedings of the 42nd International Conference on Machine Learning, ICML 2025
Redacteuren	Aarti Singh, Maryam Fazel, Daniel Hsu, Simon Lacoste-Julien, Felix Berkenkamp, Tegan Maharaj, Kiri Wagstaff, Jerry Zhu
Uitgeverij	PMLR
Aantal pagina's	16
Status	Gepubliceerd - 2025
Evenement	42nd International Conference on Machine Learning, ICML 2025 - Vancouver, Canada Duur: 13 jul. 2025 → 19 jul. 2025

Publicatie series

Naam	Proceedings of Machine Learning Research (PMLR)
Volume	267
ISSN van elektronische versie	2640-3498

Congres

Congres	42nd International Conference on Machine Learning, ICML 2025
Verkorte titel	ICML 2025
Land/Regio	Canada
Stad	Vancouver
Periode	13/07/25 → 19/07/25

Financiering

This work is supported by the Luxembourg National Research Fund (FNR) (15706426).

Trefwoorden

cs.NE
cs.LG

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pdfDefinitieve gepubliceerde versie, 569 KBLicentie: CC BY
2505.16471v1

https://proceedings.mlr.press/v267/reijnen25a.html

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Citeer dit

Reijnen, R., Wu, Y., Bukhsh, Z., & Zhang, Y. (2025). Graph-Supported Dynamic Algorithm Configuration for Multi-Objective Combinatorial Optimization. In A. Singh, M. Fazel, D. Hsu, S. Lacoste-Julien, F. Berkenkamp, T. Maharaj, K. Wagstaff, & J. Zhu (editors), Proceedings of the 42nd International Conference on Machine Learning, ICML 2025 (Proceedings of Machine Learning Research (PMLR); Vol. 267). PMLR. https://proceedings.mlr.press/v267/reijnen25a.html

Reijnen, Robbert ; Wu, Yaoxin ; Bukhsh, Zaharah et al. / Graph-Supported Dynamic Algorithm Configuration for Multi-Objective Combinatorial Optimization. Proceedings of the 42nd International Conference on Machine Learning, ICML 2025. redacteur / Aarti Singh ; Maryam Fazel ; Daniel Hsu ; Simon Lacoste-Julien ; Felix Berkenkamp ; Tegan Maharaj ; Kiri Wagstaff ; Jerry Zhu. PMLR, 2025. (Proceedings of Machine Learning Research (PMLR)).

@inproceedings{af95c76381584109a7f7498a92eede6d,

title = "Graph-Supported Dynamic Algorithm Configuration for Multi-Objective Combinatorial Optimization",

abstract = "Deep reinforcement learning (DRL) has been widely used for dynamic algorithm configuration, particularly in evolutionary computation, which benefits from the adaptive update of parameters during the algorithmic execution. However, applying DRL to algorithm configuration for multi-objective combinatorial optimization (MOCO) problems remains relatively unexplored. This paper presents a novel graph neural network (GNN) based DRL to configure multi-objective evolutionary algorithms. We model the dynamic algorithm configuration as a Markov decision process, representing the convergence of solutions in the objective space by a graph, with their embeddings learned by a GNN to enhance the state representation. Experiments on diverse MOCO challenges indicate that our method outperforms traditional and DRL-based algorithm configuration methods in terms of efficacy and adaptability. It also exhibits advantageous generalizability across objective types and problem sizes, and applicability to different evolutionary computation methods.",

keywords = "cs.NE, cs.LG",

author = "Robbert Reijnen and Yaoxin Wu and Zaharah Bukhsh and Yingqian Zhang",

year = "2025",

language = "English",

series = "Proceedings of Machine Learning Research (PMLR)",

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editor = "Aarti Singh and Maryam Fazel and Daniel Hsu and Simon Lacoste-Julien and Felix Berkenkamp and Tegan Maharaj and Kiri Wagstaff and Jerry Zhu",

booktitle = "Proceedings of the 42nd International Conference on Machine Learning, ICML 2025",

note = "42nd International Conference on Machine Learning, ICML 2025, ICML 2025 ; Conference date: 13-07-2025 Through 19-07-2025",

}

Reijnen, R , Wu, Y , Bukhsh, Z & Zhang, Y 2025, Graph-Supported Dynamic Algorithm Configuration for Multi-Objective Combinatorial Optimization. in A Singh, M Fazel, D Hsu, S Lacoste-Julien, F Berkenkamp, T Maharaj, K Wagstaff & J Zhu (reds.), Proceedings of the 42nd International Conference on Machine Learning, ICML 2025. Proceedings of Machine Learning Research (PMLR), vol. 267, PMLR, 42nd International Conference on Machine Learning, ICML 2025, Vancouver, Canada, 13/07/25. <https://proceedings.mlr.press/v267/reijnen25a.html>

Graph-Supported Dynamic Algorithm Configuration for Multi-Objective Combinatorial Optimization. / Reijnen, Robbert ; Wu, Yaoxin (Corresponderende auteur); Bukhsh, Zaharah et al.
Proceedings of the 42nd International Conference on Machine Learning, ICML 2025. reds. / Aarti Singh; Maryam Fazel; Daniel Hsu; Simon Lacoste-Julien; Felix Berkenkamp; Tegan Maharaj; Kiri Wagstaff; Jerry Zhu. PMLR, 2025. (Proceedings of Machine Learning Research (PMLR); Vol. 267).

Onderzoeksoutput: Hoofdstuk in Boek/Rapport/Congresprocedure › Conferentiebijdrage › Academic › peer review

TY - GEN

T1 - Graph-Supported Dynamic Algorithm Configuration for Multi-Objective Combinatorial Optimization

AU - Reijnen, Robbert

AU - Wu, Yaoxin

AU - Bukhsh, Zaharah

AU - Zhang, Yingqian

PY - 2025

Y1 - 2025

N2 - Deep reinforcement learning (DRL) has been widely used for dynamic algorithm configuration, particularly in evolutionary computation, which benefits from the adaptive update of parameters during the algorithmic execution. However, applying DRL to algorithm configuration for multi-objective combinatorial optimization (MOCO) problems remains relatively unexplored. This paper presents a novel graph neural network (GNN) based DRL to configure multi-objective evolutionary algorithms. We model the dynamic algorithm configuration as a Markov decision process, representing the convergence of solutions in the objective space by a graph, with their embeddings learned by a GNN to enhance the state representation. Experiments on diverse MOCO challenges indicate that our method outperforms traditional and DRL-based algorithm configuration methods in terms of efficacy and adaptability. It also exhibits advantageous generalizability across objective types and problem sizes, and applicability to different evolutionary computation methods.

AB - Deep reinforcement learning (DRL) has been widely used for dynamic algorithm configuration, particularly in evolutionary computation, which benefits from the adaptive update of parameters during the algorithmic execution. However, applying DRL to algorithm configuration for multi-objective combinatorial optimization (MOCO) problems remains relatively unexplored. This paper presents a novel graph neural network (GNN) based DRL to configure multi-objective evolutionary algorithms. We model the dynamic algorithm configuration as a Markov decision process, representing the convergence of solutions in the objective space by a graph, with their embeddings learned by a GNN to enhance the state representation. Experiments on diverse MOCO challenges indicate that our method outperforms traditional and DRL-based algorithm configuration methods in terms of efficacy and adaptability. It also exhibits advantageous generalizability across objective types and problem sizes, and applicability to different evolutionary computation methods.

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T3 - Proceedings of Machine Learning Research (PMLR)

BT - Proceedings of the 42nd International Conference on Machine Learning, ICML 2025

A2 - Singh, Aarti

A2 - Fazel, Maryam

A2 - Hsu, Daniel

A2 - Lacoste-Julien, Simon

A2 - Berkenkamp, Felix

A2 - Maharaj, Tegan

A2 - Wagstaff, Kiri

A2 - Zhu, Jerry

PB - PMLR

T2 - 42nd International Conference on Machine Learning, ICML 2025

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ER -

Reijnen R , Wu Y , Bukhsh Z , Zhang Y. Graph-Supported Dynamic Algorithm Configuration for Multi-Objective Combinatorial Optimization. In Singh A, Fazel M, Hsu D, Lacoste-Julien S, Berkenkamp F, Maharaj T, Wagstaff K, Zhu J, redacteurs, Proceedings of the 42nd International Conference on Machine Learning, ICML 2025. PMLR. 2025. (Proceedings of Machine Learning Research (PMLR)).

Graph-Supported Dynamic Algorithm Configuration for Multi-Objective Combinatorial Optimization

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