摘要
针对低轨卫星激光通信中空间碎片可能造成的星间链路中断问题,提出一种方向增强的链路状态路由算法。首先搭建了卫星通信的网络拓扑结构,对空间碎片的运动模型和卫星的运动模型进行联合建模仿真,得到卫星与碎片的相对位置并进行星间可见性分析,提出了方向影响因子和方向增强指数,结合星间链路距离及传输时延综合考虑链路代价,从而选择合适的传输路径方向,依次在每个卫星节点对间进行最小路径选择,并以路由跳数为评价指标。仿真结果表明,在有空间碎片存在的环境中,所提算法能够在不牺牲通信质量的前提下,实现路由跳数相比Dijkstra算法降低14%,传输时延相比Dijkstra算法减少17%。
With the advancement of the construction of space,space and ground integrated information networks,satellite communication systems nowhave a higher requirements for information transmission rate,satellite node storage capacity,satellite coverage and security.Traditional microwave communication methods are limited by bandwidth,speed,geographical location,spectrum,etc.,and will be difficult to meet the ultra-high speed and ultra-large capacity communication requirements of multimedia broadband services for satellite networks.At the same time,laser communications are gradually becoming an important technical means for satellite communications due to its advantages of high transmission rate,high security and reliability,strong confidentiality,small terminal equipment,light weight and low power consumption.To achieve all-round coverage of communication signals,laser networking based on dynamic satellites and the establishment of high-speed,low-latency,high-reliability and large-capacity satellite communication systems will become the future development trend of satellite communication.In the future,space will inevitably gather a large number of products of human space activities,including rockets,satellites,and rocket ejections.As humans develop space,the increase in these space debris will also bring a series of hazards.Existing space debris research mainly focuses on how to avoid collisions with satellites and spacecraft in orbit.In addition,these space debris move randomly in space,which will block point-topoint laser communications.Therefore,more effective research on the reliability of satellite laser communication systems is needed.In order to solve the problem of inter-satellite link interruption that may be caused by space debris in low-orbit satellite laser communications,this paper proposes a Direction-enhanced Link State(DE-LS)routing algorithm.Firstly,the network topology of satellite communication is built.The polar orbit constellation model is selected.According to the orbital plane and the number of sat
作者
曹阳
邢雯珺
彭小峰
包朝园
CAO Yang;XING Wenjun;PENG Xiaofeng;BAO Chaoyuan(School of Electrical and Electronic Engineering,Chongqing University of Technology,Chongqing 400054,China)
出处
《光子学报》
EI
CAS
CSCD
北大核心
2024年第2期64-74,共11页
Acta Photonica Sinica
基金
重庆市教委科学技术项目(No.KJQN201901125)
重庆市科委社会事业与民生保障科技创新专项(No.cstc2017shmsA40019)
重庆市基础与前沿研究计划项目(No.cstc2019jcy-msxm X0233)
重庆市研究生科研创新项目(No.CYS23667)。
关键词
激光通信
卫星路由
链路状态路由算法
空间碎片
Laser communications
Satellite routing
Link-state routing algorithms
Space debris
