A Simulation Study of Source Routing for Load Balancing in Software-Defined Satellite Networks (2405.16292v2)
Abstract: In the next generation network, the satellite network will play a fundamental role, in overcoming the limitation of the terrestrial network. Nonetheless, the satellite-terrestrial network integration presents a number of problems due to the time-variant topology of the first. One of the most important is the routing process of such networks. Many solutions have been proposed in the literature since the 1990s, and in recent years, the development of modern technologies such as Software Defined Networking (SDN) led to new possible approaches to the routing of satellite network. In this paper, a graph-based, source routing algorithm is presented. The algorithm exploits reliability and flexibility of the SDN architecture and the simplicity of source routing to tackle the dynamic topology of the network, providing rerouting solutions when necessary.
- M. Werner, “A dynamic routing concept for atm-based satellite personal communication networks,” IEEE Journal on Selected Areas in Communications, vol. 15, no. 8, pp. 1636–1648, 1997.
- S. Badotra, “A review paper on software defined networking,” International Journal of Advanced Computer Research, vol. 8, 03 2017.
- G. S. Aglietti, “Current challenges and opportunities for space technologies,” Frontiers in Space Technologies, vol. 1, 2020. [Online]. Available: https://www.frontiersin.org/articles/10.3389/frspt.2020.00001
- Wikipedia contributors, “Starlink — Wikipedia, the free encyclopedia,” 2024, [Online; accessed 22-May-2024].
- ——, “Iridium satellite constellation — Wikipedia, the free encyclopedia,” 2024, [Online; accessed 22-May-2024].
- D. Wu and L. Cui, “A comprehensive survey on segment routing traffic engineering,” Digital Communications and Networks, vol. 9, no. 4, pp. 990–1008, 2023.
- A. Kak and I. Akyildiz, “Online intra-domain segment routing for software-defined cubesat networks,” 12 2020, pp. 1–6.
- L. Boero, M. Marchese, and F. Patrone, “The impact of delay in software-defined integrated terrestrial-satellite networks,” China Communications, vol. 15, pp. 11–21, 08 2018.
- B. Jianjun, L. Xicheng, L. Zexin, and P. Wei, “Compact explicit multi-path routing for leo satellite networks,” in HPSR. 2005 Workshop on High Performance Switching and Routing, 2005., 2005, pp. 386–390.
- X. Song, J. Zhang, and L. Cheng, “A source routing algorithm for leo satellite networks,” vol. 2, 09 2005, pp. 1351 – 1355 Vol. 2.
- W. Jiang, “Software defined satellite networks: A survey,” Digital Communications and Networks, 2023. [Online]. Available: https://www.sciencedirect.com/science/article/pii/S2352864823000299
- X. Qi, J. Ma, D. Wu, L. Liu, and S. Hu, “A survey of routing techniques for satellite networks,” Journal of Communications and Information Networks, vol. 1, pp. 66–85, 12 2016.
- W. contributors, “Two-line element set — Wikipedia, the free encyclopedia,” 2024.
- ——, “Simpy — Wikipedia, the free encyclopedia,” 2024, [Online; accessed 24-May-2024].
- B. Li, L. Chen, and X. Peng, “ns.py,” Jun. 2022. [Online]. Available: https://github.com/TL-System/ns.py
- D. Merkel, “Docker: lightweight linux containers for consistent development and deployment,” Linux journal, vol. 2014, no. 239, p. 2, 2014.
- M. Roughan, “Simplifying the synthesis of internet traffic matrices,” SIGCOMM Comput. Commun. Rev., vol. 35, no. 5, p. 93–96, oct 2005.
- B. Rhodes, “Skyfield: Generate high precision research-grade positions for stars, planets, moons, and Earth satellites,” Feb. 2020.
- A. Hagberg, P. Swart, and D. S Chult, “Exploring network structure, dynamics, and function using networkx,” Los Alamos National Lab.(LANL), Los Alamos, NM (United States), Tech. Rep., 2008.
- Wikipedia contributors, “Systems tool kit — Wikipedia, the free encyclopedia,” 2024, [Online; accessed 24-May-2024].