Gliding over the Pareto Front with Uniform Designs

Xiaoyuan Zhang; Genghui Li; Xi Lin; Yichi Zhang; Yifan Chen; Qingfu Zhang

Gliding over the Pareto Front with Uniform Designs

Xiaoyuan Zhang, Genghui Li, Xi Lin, Yichi Zhang, Yifan Chen, Qingfu Zhang^*

^*Corresponding author for this work

Research output: Chapter in book/report/conference proceeding › Conference proceeding › peer-review

1 Citation (Scopus)

Abstract

Multiobjective optimization (MOO) plays a critical role in various real-world domains. A major challenge therein is generating K uniform Pareto-optimal solutions to approximate the entire Pareto front. To address this issue, this paper firstly introduces fill distance to evaluate the K design points, which provides a quantitative metric for the representativeness of the design. However, directly specifying the optimal design that minimizes the fill distance is nearly intractable due to the involved nested min − max − min problem structure. To address this, we propose a surrogate “max-packing” design for the fill distance design, which is easier to optimize and leads to a rate-optimal design with a fill distance at most 4× the minimum value. Extensive experiments on synthetic and real-world benchmarks demonstrate that our proposed paradigm efficiently produces high-quality, representative solutions and outperforms baseline MOO methods.

Original language	English
Title of host publication	38th Conference on Neural Information Processing Systems, NeurIPS 2024
Editors	A. Globerson, L. Mackey, D. Belgrave, A. Fan, U. Paquet, J. Tomczak, C. Zhang
Publisher	Neural Information Processing Systems Foundation
Number of pages	31
ISBN (Electronic)	9798331314385
Publication status	Published - Dec 2024
Event	38th Conference on Neural Information Processing Systems, NeurIPS 2024 - Vancouver Convention Center , Vancouver, Canada Duration: 9 Dec 2024 → 15 Dec 2024 https://neurips.cc/Conferences/2024 https://openreview.net/group?id=NeurIPS.cc/2024 https://proceedings.neurips.cc/paper_files/paper/2024 (Conference Proceedings)

Publication series

Name	Advances in Neural Information Processing Systems
Publisher	Neural information processing systems foundation
Volume	37
ISSN (Print)	1049-5258

Name	NeurIPS Proceedings

Conference

Conference	38th Conference on Neural Information Processing Systems, NeurIPS 2024
Country/Territory	Canada
City	Vancouver
Period	9/12/24 → 15/12/24
Internet address	https://neurips.cc/Conferences/2024 https://openreview.net/group?id=NeurIPS.cc/2024 https://proceedings.neurips.cc/paper_files/paper/2024 (Conference Proceedings)

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https://proceedings.neurips.cc/paper_files/paper/2024/file/040d3b6af368bf71f952c18da5713b48-Paper-Conference.pdf

Cite this

Zhang, X., Li, G., Lin, X., Zhang, Y., Chen, Y., & Zhang, Q. (2024). Gliding over the Pareto Front with Uniform Designs. In A. Globerson, L. Mackey, D. Belgrave, A. Fan, U. Paquet, J. Tomczak, & C. Zhang (Eds.), 38th Conference on Neural Information Processing Systems, NeurIPS 2024 (Advances in Neural Information Processing Systems; Vol. 37), (NeurIPS Proceedings). Neural Information Processing Systems Foundation. https://proceedings.neurips.cc/paper_files/paper/2024/file/040d3b6af368bf71f952c18da5713b48-Paper-Conference.pdf

Zhang, Xiaoyuan ; Li, Genghui ; Lin, Xi et al. / Gliding over the Pareto Front with Uniform Designs. 38th Conference on Neural Information Processing Systems, NeurIPS 2024. editor / A. Globerson ; L. Mackey ; D. Belgrave ; A. Fan ; U. Paquet ; J. Tomczak ; C. Zhang. Neural Information Processing Systems Foundation, 2024. (Advances in Neural Information Processing Systems). (NeurIPS Proceedings).

@inproceedings{475dc6e6525844da8e7fd783e8a4bf93,

title = "Gliding over the Pareto Front with Uniform Designs",

abstract = "Multiobjective optimization (MOO) plays a critical role in various real-world domains. A major challenge therein is generating K uniform Pareto-optimal solutions to approximate the entire Pareto front. To address this issue, this paper firstly introduces fill distance to evaluate the K design points, which provides a quantitative metric for the representativeness of the design. However, directly specifying the optimal design that minimizes the fill distance is nearly intractable due to the involved nested min − max − min problem structure. To address this, we propose a surrogate “max-packing” design for the fill distance design, which is easier to optimize and leads to a rate-optimal design with a fill distance at most 4× the minimum value. Extensive experiments on synthetic and real-world benchmarks demonstrate that our proposed paradigm efficiently produces high-quality, representative solutions and outperforms baseline MOO methods.",

author = "Xiaoyuan Zhang and Genghui Li and Xi Lin and Yichi Zhang and Yifan Chen and Qingfu Zhang",

note = "The work described in this paper was supported by the Research Grants Council of the Hong Kong Special Administrative Region, China [GRF Project No. CityU 11215622]. Publisher Copyright: {\textcopyright} 2024 Neural information processing systems foundation. All rights reserved.; 38th Conference on Neural Information Processing Systems, NeurIPS 2024 ; Conference date: 09-12-2024 Through 15-12-2024",

year = "2024",

month = dec,

language = "English",

series = "Advances in Neural Information Processing Systems",

publisher = "Neural Information Processing Systems Foundation",

editor = "A. Globerson and L. Mackey and D. Belgrave and A. Fan and U. Paquet and J. Tomczak and C. Zhang",

booktitle = "38th Conference on Neural Information Processing Systems, NeurIPS 2024",

address = "United States",

url = "https://neurips.cc/Conferences/2024, https://openreview.net/group?id=NeurIPS.cc/2024, https://proceedings.neurips.cc/paper_files/paper/2024",

}

Zhang, X, Li, G, Lin, X, Zhang, Y, Chen, Y & Zhang, Q 2024, Gliding over the Pareto Front with Uniform Designs. in A Globerson, L Mackey, D Belgrave, A Fan, U Paquet, J Tomczak & C Zhang (eds), 38th Conference on Neural Information Processing Systems, NeurIPS 2024. Advances in Neural Information Processing Systems, vol. 37, NeurIPS Proceedings, Neural Information Processing Systems Foundation, 38th Conference on Neural Information Processing Systems, NeurIPS 2024, Vancouver, British Columbia, Canada, 9/12/24. <https://proceedings.neurips.cc/paper_files/paper/2024/file/040d3b6af368bf71f952c18da5713b48-Paper-Conference.pdf>

Gliding over the Pareto Front with Uniform Designs. / Zhang, Xiaoyuan; Li, Genghui; Lin, Xi et al.
38th Conference on Neural Information Processing Systems, NeurIPS 2024. ed. / A. Globerson; L. Mackey; D. Belgrave; A. Fan; U. Paquet; J. Tomczak; C. Zhang. Neural Information Processing Systems Foundation, 2024. (Advances in Neural Information Processing Systems; Vol. 37), (NeurIPS Proceedings).

Research output: Chapter in book/report/conference proceeding › Conference proceeding › peer-review

TY - GEN

T1 - Gliding over the Pareto Front with Uniform Designs

AU - Zhang, Xiaoyuan

AU - Li, Genghui

AU - Lin, Xi

AU - Zhang, Yichi

AU - Chen, Yifan

AU - Zhang, Qingfu

N1 - The work described in this paper was supported by the Research Grants Council of the Hong Kong Special Administrative Region, China [GRF Project No. CityU 11215622]. Publisher Copyright: © 2024 Neural information processing systems foundation. All rights reserved.

PY - 2024/12

Y1 - 2024/12

N2 - Multiobjective optimization (MOO) plays a critical role in various real-world domains. A major challenge therein is generating K uniform Pareto-optimal solutions to approximate the entire Pareto front. To address this issue, this paper firstly introduces fill distance to evaluate the K design points, which provides a quantitative metric for the representativeness of the design. However, directly specifying the optimal design that minimizes the fill distance is nearly intractable due to the involved nested min − max − min problem structure. To address this, we propose a surrogate “max-packing” design for the fill distance design, which is easier to optimize and leads to a rate-optimal design with a fill distance at most 4× the minimum value. Extensive experiments on synthetic and real-world benchmarks demonstrate that our proposed paradigm efficiently produces high-quality, representative solutions and outperforms baseline MOO methods.

AB - Multiobjective optimization (MOO) plays a critical role in various real-world domains. A major challenge therein is generating K uniform Pareto-optimal solutions to approximate the entire Pareto front. To address this issue, this paper firstly introduces fill distance to evaluate the K design points, which provides a quantitative metric for the representativeness of the design. However, directly specifying the optimal design that minimizes the fill distance is nearly intractable due to the involved nested min − max − min problem structure. To address this, we propose a surrogate “max-packing” design for the fill distance design, which is easier to optimize and leads to a rate-optimal design with a fill distance at most 4× the minimum value. Extensive experiments on synthetic and real-world benchmarks demonstrate that our proposed paradigm efficiently produces high-quality, representative solutions and outperforms baseline MOO methods.

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M3 - Conference proceeding

AN - SCOPUS:105000501578

T3 - Advances in Neural Information Processing Systems

BT - 38th Conference on Neural Information Processing Systems, NeurIPS 2024

A2 - Globerson, A.

A2 - Mackey, L.

A2 - Belgrave, D.

A2 - Fan, A.

A2 - Paquet, U.

A2 - Tomczak, J.

A2 - Zhang, C.

PB - Neural Information Processing Systems Foundation

T2 - 38th Conference on Neural Information Processing Systems, NeurIPS 2024

Y2 - 9 December 2024 through 15 December 2024

ER -

Zhang X, Li G, Lin X, Zhang Y, Chen Y, Zhang Q. Gliding over the Pareto Front with Uniform Designs. In Globerson A, Mackey L, Belgrave D, Fan A, Paquet U, Tomczak J, Zhang C, editors, 38th Conference on Neural Information Processing Systems, NeurIPS 2024. Neural Information Processing Systems Foundation. 2024. (Advances in Neural Information Processing Systems). (NeurIPS Proceedings).

Gliding over the Pareto Front with Uniform Designs

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