Research on Routing Algorithms for Satellite Optical Networks under Space Debris Interference
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-to-point 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 satellites,an initial and constant address is set for each satellite in the polar orbit constellation.Based on the changes in the satellite node addresses of the starting and ending points in different transmission tasks,the Direction Influencing Factor(DIF)is introduced.Then,based on the celestial motion patterns of satellites and space debris in polar orbit constellations.A joint simulation model of space debris and satellites is constructed to obtain the relative positions of satellites and debris at a given moment and to perform inter-satellite visibility analysis..Based on the inter-satellite visibility data,a Direction Enhancement Index(DEI)is proposed corresponding to the four directions of each node.The direction impact factor and direction enhancement index are combined with the inter-satellite link distance and transmission delay to comprehensively represent the link cost.The cost is used as a measure to select the shortest path,and the shortest path is selected between each pair of satellite nodes in turn,and the number of routing hops is used as the evaluation index.The simulation experiment is carried out in the Walker constellation.Space debris and satellites are jointly modeled and simulated first.Then,in this environment,two situations are selected:the theoretical minimum number of hops in the same orbit is 4 hops and the theoretical minimum number in different orbits is 7 hops.Taking satellite communications No.21 and No.25 and satellite No.21 and No.55 as examples for routing selection,routing hop count and transmission delay are used as evaluation indicators,and compared with the Dijkstra routing algorithm,which also solves the shortest path.The simulation results show that the DE-LS algorithm can maintain the theoretical minimum number of hops when the link is interrupted.At the same time,it saves 14%of the hops and reduces the transmission delay by 17%compared with the Dijkstra algorithm,which reflects the effectiveness of DE-LS algorithm in avoiding faulty links.
万方数据
维普
