Joint altitude and beamwidth optimization for LEO satellite-based IoT constellation

IF 0.9 4区 计算机科学 Q3 ENGINEERING, AEROSPACE International Journal of Satellite Communications and Networking Pub Date : 2024-05-10 DOI:10.1002/sat.1518
Hong Tao, Wang Gang, Ding Xiaojin, Zhang Gengxin
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Abstract

Low Earth Orbit (LEO) satellite-based Internet of Things (IoT) has become a hot topic in IoT networks due to the ability of global coverage, especially in remote areas. How to design a commercial LEO satellite-based constellation to meet the IoT traffic requirement remains an open problem. In this paper, we propose a throughput optimization algorithm for LEO satellite-based IoT networks meanwhile reducing the number of LEO satellite. Based on stochastic geometry theory, a closed-form expression is derived for the throughput of a dynamic LEO satellite-based IoT networks when LEO satellite equips with capture effect (CE) receiver and successive interference cancelation (SIC) receiver, respectively. Furthermore, a joint altitude and beamwidth optimization problem is formulated under the constraint of Walker constellation to optimize the throughput and the number of LEO satellites. To solve this multi-objective optimization problem, we design an iterative non-dominated sorting genetic algorithm II (NSGA-II) for the rapid development of IoT traffic. Simulation results show that our proposed algorithm can effectively improve the throughput performance of random access (RA) protocol in LEO satellite-based IoT networks compared to benchmark problems.

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低地轨道卫星物联网星座的联合高度和波束宽度优化
摘要基于低地轨道(LEO)卫星的物联网(IoT)由于能够覆盖全球,尤其是偏远地区,已成为物联网网络的热门话题。如何设计一个基于低地轨道的商用卫星星座来满足物联网的流量需求,仍然是一个未决问题。本文提出了一种基于 LEO 卫星的物联网网络吞吐量优化算法,同时减少了 LEO 卫星的数量。基于随机几何理论,当低地轨道卫星分别配备捕获效应(CE)接收器和连续干扰抵消(SIC)接收器时,基于低地轨道卫星的动态物联网网络的吞吐量可得出闭式表达式。此外,在沃克星座的约束下,还提出了一个高度和波束宽度联合优化问题,以优化吞吐量和低地轨道卫星的数量。为了解决这个多目标优化问题,我们设计了一种迭代非支配排序遗传算法 II(NSGA-II),以适应物联网流量的快速发展。仿真结果表明,与基准问题相比,我们提出的算法能有效提高基于低地轨道卫星的物联网网络中随机接入(RA)协议的吞吐量性能。
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来源期刊
CiteScore
4.10
自引率
5.90%
发文量
31
审稿时长
>12 weeks
期刊介绍: The journal covers all aspects of the theory, practice and operation of satellite systems and networks. Papers must address some aspect of satellite systems or their applications. Topics covered include: -Satellite communication and broadcast systems- Satellite navigation and positioning systems- Satellite networks and networking- Hybrid systems- Equipment-earth stations/terminals, payloads, launchers and components- Description of new systems, operations and trials- Planning and operations- Performance analysis- Interoperability- Propagation and interference- Enabling technologies-coding/modulation/signal processing, etc.- Mobile/Broadcast/Navigation/fixed services- Service provision, marketing, economics and business aspects- Standards and regulation- Network protocols
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