@article{10902/33942,
year = {2024},
month = {11},
url = {https://hdl.handle.net/10902/33942},
abstract = {The advent of wireless technologies has led to the development of novel services for end-users, with stringent needs and requirements. High availability, very high throughput, low latency, and reliability are all of them crucial performance parameters. To address these demands, emerging technologies, such as non-terrestrial networks or millimeter wave (mmWave), are being included in 5G and Beyond 5G (B5G) specifications. mmWave enables massive data transmissions, at the expense of a more hostile propagation, typical for high frequency bands. Consequently, the inherent instability of the physical channel significantly affects the upper layers of the protocol stack, resulting in congestion and data losses, which might strongly hinder the overall communication performance. These challenges can be addressed not only at the link layer, but at any affected layer. QUIC is a new transport protocol designed to reduce communications latency in many ways. Among other features, it enables the use of multiple streams to effectively manage data flows sent through its underlying UDP socket. This paper introduces an implementation of priority-based stream schedulers along with the design of a flexible interface. Exploiting the proposed approach, applications are able to set the required scheduling scheme, as well as the stream priorities. The feasibility of the proposed approach is validated through an extensive experiment campaign, which combines Docker containers, the ns-3 simulator and the Mahimahi framework, which is exploited to introduce realistic mmWave channel traces. The results evince that an appropriate stream scheduler can indeed yield lower delays for time-sensitive applications by up to 36% under unreliable conditions},
organization = {The authors appreciate the funding of the Industrial PhD Program from University of Cantabria (2020 Call). This work has been partially supported by the Spanish Government (Ministerio de Economía y Competitividad, Fondo Europeo de Desarrollo Regional, FEDER) with the project SITED: Semantically-enabled Interoperable Trustworthy Enriched Data-spaces (PID2021-125725OB-I00), the Government of Cantabria, Fondo Europeo de Desarrollo Regional (FEDER): Grants for research projects with high industrial potential of technological agents of excellence for industrial competitiveness (TCNIC) program (2023/TCN/002), as well as by the Basque Government through the Elkartek research program under the SONETO project (Ref. KK 2023/00038). The work of Anna Brunstrom was partially supported by the Knowledge Foundation of Sweden under project grant 20220072- H-01.},
publisher = {Elsevier},
publisher = {Ad Hoc Networks, 2024, 164, 103599},
title = {Exploiting stream scheduling in QUIC: performance assessment over wireless connectivity scenarios},
author = {Fernández Pérez, Fátima María and Khan Blanco, Fátima and Zverev, Mihail and Díez Fernández, Luis Francisco and Juárez Rodríguez, José Ramón and Brunstroöm, Anna and Agüero Calvo, Ramón},
}