With the development of the massive satellite constellation and the on-orbit laser-based communication equipment, the wavelength routing optical satellite network (WROSN) becomes a potential solution for on-orbit, high-capacity, and high-speed communication. Since the inter-satellite links (ISLs) are time-varying, one of the fundamental considerations in the construction of the WROSN is assigning limited laser communication terminals for each satellite to establish ISLs with the visible satellites. Therefore, we propose a links assignment scheme (LAS) based on the potential edges importance matrix (PEIM) algorithm to construct a temporarily stable topology of the ISLs for a dual-layer constellation. The simulation results showed that the LAS based on the PEIM algorithm is better than LAS based on the random or Greedy algorithm in terms of node-to-node distance, node pair connectivity, wavelength demand, and transmission delay. The node pair connectivity and wavelength demand in WROSN is a trade-off problem. The research in this paper also brings a novel method for reduction of the cost of the on-board resources, that is through designing topology of the ISLs with links assignment algorithm.
翻译:随着庞大卫星群和轨道上基于激光通信设备的发展,波长路由光学卫星网络(WROSN)成为轨道上高容量和高速通信的潜在解决方案。由于卫星之间的中继链路(ISL)是时变的,在构建WROSN时的基本考虑之一是为每个卫星分配有限的激光通信终端,以与可见卫星建立ISL。因此,我们提出了一种基于潜在边缘重要性矩阵(PEIM)算法的链接分配方案(LAS),以建立双层星座的ISL临时稳定拓扑。仿真结果表明,与基于随机或贪心算法的LAS相比,基于PEIM算法的LAS在节点到节点距离、节点对连接性、波长需求和传输延迟方面更好。在WROSN中,节点对连接性和波长需求是一个权衡问题。本文研究还提出了一个新的在设计ISL拓扑时通过链接分配算法降低船上资源成本的方法。