A Diffusion-Based Multi-Objective Ant Colony Algorithm for Optimizing Network Topology Design

Huawen Hu; Haiyang Zhang; Enze Shi; Sigang Yu; Huan Gao; Shu Zhang

doi:10.1145/3638884.3638945

A Diffusion-Based Multi-Objective Ant Colony Algorithm for Optimizing Network Topology Design

Huawen Hu, Haiyang Zhang, Enze Shi, Sigang Yu, Huan Gao, Shu Zhang

School of Computer Science

Northwestern Polytechnical University Xian

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

Abstract

Network topology construction is critical for designing efficient and resilient networks. Although ant colony optimization (ACO) has been widely applied in these tasks owing to its advantage of the pheromone update mechanism, it still exhibits limitations in solving such multi-objective optimization problems and converges slowly. This paper proposes a Diffusion-Based Multi-Objective Ant Colony Optimization (DMAC) algorithm for effective and reliable network topology construction. DMAC integrates pheromone diffusion mechanisms with multi-objective ACO to optimize multiple critical objectives concurrently and accelerate convergence. Experiments on simulation and real-world implementation demonstrate DMAC's ability to construct high-quality topologies balancing key tradeoffs within a small iteration budget. The proposed combination of diffusion mechanisms and multi-objective ACO addresses the limitations of prior ACO methods and provides new effective approach to automated network topology construction under multiple design constraints. DMAC demonstrates promising performance improvements on this complex multi-objective optimization problem and has great application potential in other fields and algorithms.

Original language	English
Title of host publication	ICCIP 2023 - 2023 the 9th International Conference on Communication and Information Processing
Publisher	Association for Computing Machinery
Pages	393-399
Number of pages	7
ISBN (Electronic)	9798400708909
DOIs	https://doi.org/10.1145/3638884.3638945
State	Published - 14 Dec 2023
Event	9th International Conference on Communication and Information Processing, ICCIP 2023 - Lingshui, China Duration: 14 Dec 2023 → 16 Dec 2023

Publication series

Name	ACM International Conference Proceeding Series

Conference

Conference	9th International Conference on Communication and Information Processing, ICCIP 2023
Country/Territory	China
City	Lingshui
Period	14/12/23 → 16/12/23

Keywords

diffusion mechanism
multi-objective ant colony optimization
network topology construction

Access to Document

10.1145/3638884.3638945

Cite this

Hu, H., Zhang, H., Shi, E., Yu, S., Gao, H., & Zhang, S. (2023). A Diffusion-Based Multi-Objective Ant Colony Algorithm for Optimizing Network Topology Design. In ICCIP 2023 - 2023 the 9th International Conference on Communication and Information Processing (pp. 393-399). (ACM International Conference Proceeding Series). Association for Computing Machinery. https://doi.org/10.1145/3638884.3638945

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title = "A Diffusion-Based Multi-Objective Ant Colony Algorithm for Optimizing Network Topology Design",

abstract = "Network topology construction is critical for designing efficient and resilient networks. Although ant colony optimization (ACO) has been widely applied in these tasks owing to its advantage of the pheromone update mechanism, it still exhibits limitations in solving such multi-objective optimization problems and converges slowly. This paper proposes a Diffusion-Based Multi-Objective Ant Colony Optimization (DMAC) algorithm for effective and reliable network topology construction. DMAC integrates pheromone diffusion mechanisms with multi-objective ACO to optimize multiple critical objectives concurrently and accelerate convergence. Experiments on simulation and real-world implementation demonstrate DMAC's ability to construct high-quality topologies balancing key tradeoffs within a small iteration budget. The proposed combination of diffusion mechanisms and multi-objective ACO addresses the limitations of prior ACO methods and provides new effective approach to automated network topology construction under multiple design constraints. DMAC demonstrates promising performance improvements on this complex multi-objective optimization problem and has great application potential in other fields and algorithms.",

keywords = "diffusion mechanism, multi-objective ant colony optimization, network topology construction",

author = "Huawen Hu and Haiyang Zhang and Enze Shi and Sigang Yu and Huan Gao and Shu Zhang",

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month = dec,

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doi = "10.1145/3638884.3638945",

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Hu, H, Zhang, H, Shi, E, Yu, S, Gao, H & Zhang, S 2023, A Diffusion-Based Multi-Objective Ant Colony Algorithm for Optimizing Network Topology Design. in ICCIP 2023 - 2023 the 9th International Conference on Communication and Information Processing. ACM International Conference Proceeding Series, Association for Computing Machinery, pp. 393-399, 9th International Conference on Communication and Information Processing, ICCIP 2023, Lingshui, China, 14/12/23. https://doi.org/10.1145/3638884.3638945

A Diffusion-Based Multi-Objective Ant Colony Algorithm for Optimizing Network Topology Design. / Hu, Huawen; Zhang, Haiyang; Shi, Enze et al.
ICCIP 2023 - 2023 the 9th International Conference on Communication and Information Processing. Association for Computing Machinery, 2023. p. 393-399 (ACM International Conference Proceeding Series).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

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AU - Zhang, Haiyang

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AU - Gao, Huan

AU - Zhang, Shu

PY - 2023/12/14

Y1 - 2023/12/14

N2 - Network topology construction is critical for designing efficient and resilient networks. Although ant colony optimization (ACO) has been widely applied in these tasks owing to its advantage of the pheromone update mechanism, it still exhibits limitations in solving such multi-objective optimization problems and converges slowly. This paper proposes a Diffusion-Based Multi-Objective Ant Colony Optimization (DMAC) algorithm for effective and reliable network topology construction. DMAC integrates pheromone diffusion mechanisms with multi-objective ACO to optimize multiple critical objectives concurrently and accelerate convergence. Experiments on simulation and real-world implementation demonstrate DMAC's ability to construct high-quality topologies balancing key tradeoffs within a small iteration budget. The proposed combination of diffusion mechanisms and multi-objective ACO addresses the limitations of prior ACO methods and provides new effective approach to automated network topology construction under multiple design constraints. DMAC demonstrates promising performance improvements on this complex multi-objective optimization problem and has great application potential in other fields and algorithms.

AB - Network topology construction is critical for designing efficient and resilient networks. Although ant colony optimization (ACO) has been widely applied in these tasks owing to its advantage of the pheromone update mechanism, it still exhibits limitations in solving such multi-objective optimization problems and converges slowly. This paper proposes a Diffusion-Based Multi-Objective Ant Colony Optimization (DMAC) algorithm for effective and reliable network topology construction. DMAC integrates pheromone diffusion mechanisms with multi-objective ACO to optimize multiple critical objectives concurrently and accelerate convergence. Experiments on simulation and real-world implementation demonstrate DMAC's ability to construct high-quality topologies balancing key tradeoffs within a small iteration budget. The proposed combination of diffusion mechanisms and multi-objective ACO addresses the limitations of prior ACO methods and provides new effective approach to automated network topology construction under multiple design constraints. DMAC demonstrates promising performance improvements on this complex multi-objective optimization problem and has great application potential in other fields and algorithms.

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Hu H, Zhang H, Shi E, Yu S, Gao H, Zhang S. A Diffusion-Based Multi-Objective Ant Colony Algorithm for Optimizing Network Topology Design. In ICCIP 2023 - 2023 the 9th International Conference on Communication and Information Processing. Association for Computing Machinery. 2023. p. 393-399. (ACM International Conference Proceeding Series). doi: 10.1145/3638884.3638945

A Diffusion-Based Multi-Objective Ant Colony Algorithm for Optimizing Network Topology Design

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