Dynamic collaborative data download in heterogeneous satellite networks

Low-earth-orbit (LEO) satellite network has become a critical component of the satellite-terrestrial integrated network (STIN) due to its superior signal quality and minimal communication latency. However, the highly dynamic nature of LEO satellites leads to limited and rapidly varying contact time...

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Published in	China communications Vol. 22; no. 2; pp. 26 - 46
Main Authors	Qi, Wu, Xintong, Li, Lidong, Zhu
Format	Journal Article
Language	English
Published	China Institute of Communications 01.02.2025 National Key Laboratory of Wireless Communications,University of Electronics of Science and Technology of China,Chengdu 611731,China
Subjects	Asymptotic stability backlog stability Collaboration data download Delays Energy consumption heterogeneous satellite networks Low earth orbit satellites Lyapunov optimization Optimization power allocation Relays Resource management Satellites Stability analysis Lyapunov optimization power allocation data download backlog stability hetero-geneous satellite networks
Online Access	Get full text
ISSN	1673-5447
DOI	10.23919/JCC.fa.2024-0463.202502

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Abstract	Low-earth-orbit (LEO) satellite network has become a critical component of the satellite-terrestrial integrated network (STIN) due to its superior signal quality and minimal communication latency. However, the highly dynamic nature of LEO satellites leads to limited and rapidly varying contact time between them and Earth stations (ESs), making it difficult to timely download massive communication and remote sensing data within the limited time window. To address this challenge in heterogeneous satellite networks with coexisting geostationary-earth-orbit (GEO) and LEO satellites, this paper proposes a dynamic collaborative inter-satellite data download strategy to optimize the long-term weighted energy consumption and data downloads within the constraints of on-board power, backlog stability and time-varying contact. Specifically, the Lyapunov optimization theory is applied to transform the long-term stochastic optimization problem, subject to time-varying contact time and on-board power constraints, into multiple deterministic single time slot problems, based on which online distributed algorithms are developed to enable each satellite to independently obtain the transmit power allocation and data processing decisions in closed-form. Finally, the simulation results demonstrate the superiority of the proposed scheme over benchmarks, e.g., achieving asymptotic optimality of the weighted energy consumption and data downloads, while maintaining stability of the on-board backlog.
AbstractList	Low-earth-orbit(LEO)satellite network has become a critical component of the satellite-terrestrial integrated network(STIN)due to its su-perior signal quality and minimal communication la-tency.However,the highly dynamic nature of LEO satellites leads to limited and rapidly varying contact time between them and Earth stations(ESs),making it difficult to timely download massive communication and remote sensing data within the limited time win-dow.To address this challenge in heterogeneous satel-lite networks with coexisting geostationary-earth-orbit(GEO)and LEO satellites,this paper proposes a dy-namic collaborative inter-satellite data download strat-egy to optimize the long-term weighted energy con-sumption and data downloads within the constraints of on-board power,backlog stability and time-varying contact.Specifically,the Lyapunov optimization the-ory is applied to transform the long-term stochastic optimization problem,subject to time-varying con-tact time and on-board power constraints,into multi-ple deterministic single time slot problems,based on which online distributed algorithms are developed to enable each satellite to independently obtain the trans-mit power allocation and data processing decisions in closed-form.Finally,the simulation results demon-strate the superiority of the proposed scheme over benchmarks,e.g.,achieving asymptotic optimality of the weighted energy consumption and data downloads,while maintaining stability of the on-board backlog. Low-earth-orbit (LEO) satellite network has become a critical component of the satellite-terrestrial integrated network (STIN) due to its superior signal quality and minimal communication latency. However, the highly dynamic nature of LEO satellites leads to limited and rapidly varying contact time between them and Earth stations (ESs), making it difficult to timely download massive communication and remote sensing data within the limited time window. To address this challenge in heterogeneous satellite networks with coexisting geostationary-earth-orbit (GEO) and LEO satellites, this paper proposes a dynamic collaborative inter-satellite data download strategy to optimize the long-term weighted energy consumption and data downloads within the constraints of on-board power, backlog stability and time-varying contact. Specifically, the Lyapunov optimization theory is applied to transform the long-term stochastic optimization problem, subject to time-varying contact time and on-board power constraints, into multiple deterministic single time slot problems, based on which online distributed algorithms are developed to enable each satellite to independently obtain the transmit power allocation and data processing decisions in closed-form. Finally, the simulation results demonstrate the superiority of the proposed scheme over benchmarks, e.g., achieving asymptotic optimality of the weighted energy consumption and data downloads, while maintaining stability of the on-board backlog.
Author	Lidong, Zhu Qi, Wu Xintong, Li
AuthorAffiliation	National Key Laboratory of Wireless Communications,University of Electronics of Science and Technology of China,Chengdu 611731,China
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Snippet	Low-earth-orbit (LEO) satellite network has become a critical component of the satellite-terrestrial integrated network (STIN) due to its superior signal... Low-earth-orbit(LEO)satellite network has become a critical component of the satellite-terrestrial integrated network(STIN)due to its su-perior signal quality...
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SubjectTerms	Asymptotic stability backlog stability Collaboration data download Delays Energy consumption heterogeneous satellite networks Low earth orbit satellites Lyapunov optimization Optimization power allocation Relays Resource management Satellites Stability analysis
Title	Dynamic collaborative data download in heterogeneous satellite networks
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