Hypernetwork Model and Architecture for Deep Space Information Networks
The increasing world-wide demands in deep space scientific missions, such as Lunar, Mars and other Planetary Exploration, along with the rapidly growing advances in space communication technologies have triggered the vision of so called future Deep Space Information Networks (DSINs). The coined DSIN paradigm is envisioned to be an integrated high speed self-organizing hypernetwork consisting of the terrestrial ground-based information networks and the outer space-based entities to provide maximum network capacity. In this paper, we investigate the problem of network infrastructure and architecture for DSINs. Taking into account the major challenges or characteristics affecting link, networking, transport, and security design of DSINs, we employ hypergraph theory to construct network infrastructure and node architecture of space optical switching, and further present a five-layered hypernetwork model of DSINs to enhance network connectivity. Combining with the benefits in interconnection and interoperability of heterogeneous challenged networks, brought by the well-known Delay-and Disruption-Tolerant Networking (DTN) architecture, we propose a novel architecture of DSINs from two levels including Layered Protocol Stack and Management Plane. The proposed architecture preliminarily achieves the basic concepts and the relevant mechanisms of wisdom network, and the performance and quality of service (QoS) of DSINs are thereby improved.
deep space information networks (DSINs) DTN hypernetwork model hypergraph architecture
Xianwei Zhou Long Zhang Zhimi Cheng Huan He Jianping Wang Yueyun Chen
Department of Communication Engineering, School of Information Engineering University of Science and ECET Department, Southern Polytechnic State University Marietta, GA 30060-2896 USA Department of Communication Engineering, School of Information Engineering University of Science and Department of Communication Engineering, School of Information Engineering University of Science and
国际会议
2010 International Conference on Future Information Technology(2010年未来信息技术国际会议 ICFIT 2010)
长沙
英文
1037-1041
2010-12-14(万方平台首次上网日期,不代表论文的发表时间)