Joint dynamic routing and resource allocation in satellite-terrestrial integrated networks

The Satellite-Terrestrial Integrated Networks (STINs) is considered as a reliable and agile next-generation communication network scheme, because it is flexible to deploy and robust to disasters (e.g., earthquakes, floods, and volcanic eruptions). The routing and resource allocation directly affect...

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Vydáno v:Computer networks (Amsterdam, Netherlands : 1999) Ročník 231; s. 109823
Hlavní autoři: Yin, Yabo, Huang, Chuanhe, Xiong, Neal N., Wu, Dong-Fang, Huang, Shidong
Médium: Journal Article
Jazyk:angličtina
Vydáno: Elsevier B.V 01.07.2023
Témata:
Convex optimization
Energy-efficient routing
Lagrange dual method
Multi-objective optimization
Resource allocation
Satellite-terrestrial integrated networks
Lagrange dual method
Satellite-terrestrial integrated networks
Multi-objective optimization
Convex optimization
Resource allocation
Energy-efficient routing
ISSN:1389-1286, 1872-7069
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Abstract The Satellite-Terrestrial Integrated Networks (STINs) is considered as a reliable and agile next-generation communication network scheme, because it is flexible to deploy and robust to disasters (e.g., earthquakes, floods, and volcanic eruptions). The routing and resource allocation directly affect the power consumption of satellites in the STINs. However, most of existing research works study these two issues separately, and neglect the impact of path selection on the satellite power consumption. This paper investigates the joint optimization problem of routing, bandwidth allocation, user association, channel allocation, and power allocation of the STINs. We aim at minimizing satellites’ power consumption while satisfying user's Quality of Service (QoS). Because the power consumption of satellites for routing in the space segment is involved with the data rate through satellite gateways in the user segment, this optimization problem is a Multi-Objective Optimization (MOO) problem. To this end, we convert the MOO problem to a Single-Objective Optimization (SOO) problem by linear weighted method. Considering that the SOO problem is a Mixed Integer Nonlinear Programming (MINLP) problem, we decompose it into the resource allocation sub-problem in the user segment and the routing optimization sub-problem in the space segment. And we solve these two sub-problems iteratively. Specifically, we convert the first sub-problem into a convex optimization problem and obtain the current user association and channel allocation. Then we formulate the second sub-problem into a multi-commodity flow problem and solve it based on the obtained user association and channel allocation. The SOO problem is solved by iteratively optimizing these two sub-problems. Experimental results demonstrate that our proposed algorithm is able to get an approximate optimal solution quickly and effectively reduce the power consumption of satellites compared with benchmark algorithms in the STINs.
AbstractList The Satellite-Terrestrial Integrated Networks (STINs) is considered as a reliable and agile next-generation communication network scheme, because it is flexible to deploy and robust to disasters (e.g., earthquakes, floods, and volcanic eruptions). The routing and resource allocation directly affect the power consumption of satellites in the STINs. However, most of existing research works study these two issues separately, and neglect the impact of path selection on the satellite power consumption. This paper investigates the joint optimization problem of routing, bandwidth allocation, user association, channel allocation, and power allocation of the STINs. We aim at minimizing satellites’ power consumption while satisfying user's Quality of Service (QoS). Because the power consumption of satellites for routing in the space segment is involved with the data rate through satellite gateways in the user segment, this optimization problem is a Multi-Objective Optimization (MOO) problem. To this end, we convert the MOO problem to a Single-Objective Optimization (SOO) problem by linear weighted method. Considering that the SOO problem is a Mixed Integer Nonlinear Programming (MINLP) problem, we decompose it into the resource allocation sub-problem in the user segment and the routing optimization sub-problem in the space segment. And we solve these two sub-problems iteratively. Specifically, we convert the first sub-problem into a convex optimization problem and obtain the current user association and channel allocation. Then we formulate the second sub-problem into a multi-commodity flow problem and solve it based on the obtained user association and channel allocation. The SOO problem is solved by iteratively optimizing these two sub-problems. Experimental results demonstrate that our proposed algorithm is able to get an approximate optimal solution quickly and effectively reduce the power consumption of satellites compared with benchmark algorithms in the STINs.
ArticleNumber 109823
Author Xiong, Neal N.
Yin, Yabo
Wu, Dong-Fang
Huang, Chuanhe
Huang, Shidong
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  givenname: Chuanhe
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  fullname: Huang, Shidong
  organization: School of Computer Science, Wuhan University, Wuhan 430072, China
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crossref_primary_10_1109_TCOMM_2024_3397809
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Keywords Lagrange dual method
Satellite-terrestrial integrated networks
Multi-objective optimization
Convex optimization
Resource allocation
Energy-efficient routing
Language English
License This is an open access article under the CC BY-NC-ND license.
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Snippet The Satellite-Terrestrial Integrated Networks (STINs) is considered as a reliable and agile next-generation communication network scheme, because it is...
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StartPage 109823
SubjectTerms Convex optimization
Energy-efficient routing
Lagrange dual method
Multi-objective optimization
Resource allocation
Satellite-terrestrial integrated networks
Title Joint dynamic routing and resource allocation in satellite-terrestrial integrated networks
URI https://dx.doi.org/10.1016/j.comnet.2023.109823
Volume 231
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