Segment Routing based on Geographic Checkpoints
| Title | Segment Routing based on Geographic Checkpoints |
|---|---|
| Summary | Segment Routing based on Geographic Checkpoints: |
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| References | 1) M. Moy, R. Kassouf-Short, N. Kortas, J. Cleveland, B. Tomko, D. Conricode, Y. Kirkpatrick, R. Cardona, B. Heller and J. Curry — “Contact Multigraph Routing: Overview and Implementation.” 2023 IEEE Aerospace Conference.
2) J. Hu, L. Cai, C. Zhao and J. Pan — “Directed Percolation Routing for Ultra-Reliable and Low-Latency Services in Low Earth Orbit (LEO) Satellite Networks.” 2020 IEEE Vehicular Technology Conference (VTC-Fall). 3) G. Stock, J. A. Fraire and H. Hermanns, "Distributed On-Demand Routing for LEO Mega-Constellations: A Starlink Case Study," 2022 11th Advanced Satellite Multimedia Systems Conference and the 17th Signal Processing for Space Communications Workshop (ASMS/SPSC), Graz, Austria, 2022, pp. 1-8, doi: 10.1109/ASMS/SPSC55670.2022.9914716 |
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| Supervisor | EDISON PIGNATON DE FREITAS |
| Level | Master |
| Status | Open |
Segment Routing based on Geographic Checkpoints:
Improve performance in starlink, using other algorithms in Florasat (e.g. CGR), and the "greedy geographic" routing approach of starlink as a benchmark.
Analyse how the routing protocol behaves in other constellations like Oneweb, Iridium, Kuiper or Telesat.
Analyse the behaviour of the routing protocol in an Aircraft constellation.
The student(s) may choose 2 out of 3 to perform the thesis, or one, if a deeper he/she/them want(s) to perform a deeper study.
Work in partnership with AIRBUS Central Research and Technology, Germany.
