Martin Klapez

TL;DR: The paper proposes a network architecture based on the integration of satellite and LTE networks for both infrastructure-based and infrastructure-less scenarios to provide field operators and people in distress with transparent accessibility, coverage guarantees and broadband performance when terrestrial infrastructures are lacking, and to expand their coverage, capacity and resilience otherwise.

TL;DR: A hybrid approach to tackle the question of determining the future architecture for Pan-European PPDR networks based on the integration of Terrestrial and Satellite technologies is proposed, presenting the first simulation results on the Integration of LTE and Satellite Networks.

TL;DR: The results are encouraging and attest that, with the appropriate transmission power, it is possible to provide satisfying safety guarantees under the tested conditions.

TL;DR: A brief survey and a cross-comparison of the latest and most important TCP and AQM variants are presented, and an evaluation of a different kind of performance on the ns-3 network simulator over various types of environments is provided.

TL;DR: An extension of the ns-3 TCP infrastructure is presented, through the addition of the Window Scaling and the Timestamp Options as well as various models of TCP congestion control algorithms, from the widely used TCP Cubic to algorithms tailored for satellite or high Bandwidth-Delay Product links in general.