Flent

Høiland-Jørgensen, Toke; Grazia, Carlo Augusto; Hurtig, Per; Brunström, Anna

doi:10.1145/3150928.3150957

Cited by 25 publications

(5 citation statements)

References 10 publications

Supporting

Mentioning

Contrasting

Unclassified

Order By: Relevance

“…There, packets are handled in a FIFO manner, and thus, one greedy flow can monopolize the queue, negatively affecting the remaining flows tagged with the same QFI, since no contention or fairness mechanism is foreseen. In fact, from the MAC scheduler's perspective 2 DiffServ and QFI use 6 bits i.e., 2 6 = 64 classes there exists a group of different queues with diverse QFIs, where the ordering of arrival within the queues needs to be respected, forming a partially ordered set or poset [15]. Additionally, the MAC scheduler lacks any ability to segregate the packets within an RLC queue, as their contents may have been ciphered for security reasons at the Packet Data Convergence Protocol (PDCP).…”

Section: A 5g's Qos Model Limitationsmentioning

confidence: 99%

“…As shown in Fig. 1, the throughput and Round Trip Time (RTT) of two contemporary softwarized 5G RAN stacks in SA mode under the Real-Time Response Under Load (RRUL) test provided by flent [2], present delays in the order of hundreds of milliseconds, which exceeds the latency envisioned by 3GPP for low-latency scenarios [3]. During the first 5 seconds in the RRUL test, only the UDP and ping flows are active, and thus, we can observe that the no-load delay of the system is around 10 ms, a suitable value for time sensitive over the top (OTT) applications [4].…”

Section: Introductionmentioning

confidence: 99%

See 1 more Smart Citation

TC-RAN: A Programmable Traffic Control Service Model for 5G/6G SD-RAN

Irazabal,

Nikaein

2024

IEEE J. Select. Areas Commun.

View full text Add to dashboard Cite

Driven by the key principles of open interfaces, virtualization and programmability, Open RAN has emerged as a new paradigm to evolve contemporary Radio Access Networks (RANs) into a more vendor-agnostic, softwarized, and intelligent ecosystem. To this end, Software Defined RAN (SD-RAN) initiatives (e.g., O-RAN) are drafting specifications to provide the means to embrace it. However, even though O-RAN following the Open RAN paradigm specifies Service Models (SMs) to monitor and control the RAN, it does not go beyond the Quality of Service (QoS) mechanisms provided by 3GPP. Therefore, the QoS degradation that occurs mostly due to data flow's nature at the slowest data path link (e.g., high L2 sublayers), is not addressed by contemporary O-RAN SMs.In this paper, we present a traffic control system for SD-RAN, denoted as TC-RAN, that consists of an E2 service Model (E2SM) and a RAN Function (RF) that adheres to the Open RAN principles and promotes data flows to first-class citizens in cellular networks, upgrading contemporary 5G QoS mechanism. TC-RAN introduces a 6 programmable, extendable, and customizable pipeline composed of a classifier, a policer, a queue, a scheduler, a shaper and a pacer. Additionally, TC-RAN addresses QoS degradation scenarios unsolvable through Resource Block (RB) allocation or 3GPP slicing mechanisms, unleashing the true potential for deploying extremely demanding applications and creating a green field for AI/ML cross-optimization algorithms on the road to 6G. We prototype and validate TC-RAN in a real 5G Stand Alone (SA) RAN stack using an O-RAN compatible near Real-Time Radio Intelligent Controller (nearRT-RIC), xApps, and Commercial off-the-shelf (COTS) User Equipments (UEs). The results show that intelligently composing a TC-RAN pipeline in cellular networks can considerably reduce the latency, notably enhancing the Quality of Experience (QoE) in a real multiplayer online game.

show abstract

Section: A 5g's Qos Model Limitationsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

TC-RAN: A Programmable Traffic Control Service Model for 5G/6G SD-RAN

Irazabal,

Nikaein

2024

IEEE J. Select. Areas Commun.

View full text Add to dashboard Cite

show abstract

“…The paper shows that, in a general access network, the performance of ARED is similar (and in particular cases even better) to that of its competitors. With regard to TCP, this related work investigated only the standard TCP New Reno as the TCP deployed in the end nodes; this is also the case with another study on the stability of TCP/AQM systems proposed by Sun et al 37,38 In a different work, 39 based on Hoiland-Jorgensen et al, 40 the focus is again on AQM and, in general, on the queueing discipline available at the bottleneck; the authors describe the mechanism involving the technology of the access network and the bottleneck characteristics considering only TCP Cubic as the TCP congestion control. A similar discussion is reported by Anelli et al, 41 in which a novel AQM is proposed and compared to some of the last AQMs proposed in the literature but, unfortunately, tests are carried considering only TCP New Reno as the congestion control.…”

Section: Related Workmentioning

confidence: 99%

Transmission Control Protocol and Active Queue Management together against congestion: cross-comparison through simulations

et al. 2018

Self Cite

View full text Add to dashboard Cite

Most Internet traffic is carried by the Transmission Control Protocol (TCP) nowadays, even in the case of real-time services. Detecting and mitigating the congestion is one of the primary tasks of this protocol, in fact, different TCP versions are defined by their congestion control algorithms. Furthermore, Active Queue Management (AQM) algorithms share the same goal of congestion mitigation with TCP; in particular, the most efficient congestion control occurs when AQM and TCP work together. This paper presents a brief survey and a cross-comparison of the latest and most important TCP and AQM variants, then provides an evaluation of a different kind of performance on the ns-3 network simulator over various types of environments (multiple Round Trip Time, long delay, different congestion levels, etc.). In any shared bottleneck, the choice of the TCP-AQM couple to adopt is crucial. We will show that the results are not univocal and the “one size fits all” solution does not exist. Moreover, the proper couple depends on the performance that we want to boost and on the environment that we have to deal with.

show abstract

“…Segundo, foi experimentado a sobrecarga de tempo em termos de atraso fim-afim causado pelo processamento dos pacotes em uma fatia multidomínio por meio da ferramenta Flent (HØILAND-JØRGENSEN et al, 2017). Adicionalmente, foi verificado o desempenho do fatiamento de rede em múltiplos domínios providos pelo NASOR com o cenário não orientado ao fatiamento de rede -notadamente um baseline -e com a abordagem baseada em VPN.…”

Section: Método De Avaliação: Cenário Experimentalunclassified

Uma Abordagem de Fatiamento de Rede entre Múltiplos Sistemas Autônomos

Moreira¹

View full text Add to dashboard Cite

Esta tese é sobre um método de fatiamento de rede entre múltiplos Sistemas Autônomos. Eu acredito que ela é também sobre transformação. Perseguir o título Ph. D. é se transformar. A transformação profissional e pessoal são as conquistas mais significativas de todo o processo; e elas não se estabelecem somente na busca e realização dos meios de responder a um hipótese científica, elas requerem circunstâncias e pessoas que merecem apreciação e gratidão.Primeiramente, agradeço a Deus, Autor da Vida, por ter me criado a sua imagem e semelhança com a capacidade de pensar, criar e avaliar.Agradeço aos meus pais Donizete e Cláudia; e aos meus irmãos Thiago e Donizete-Jr pelo incentivo e amor incondicional.Agradeço a Larissa pelo incentivo, apoio e pela compreensão nos diversos momentos dessa etapa.Agradeço o professor e amigo Flávio de Oliveira Silva da Universidade Federal de Uberlândia por ter sido, durante toda a Pós-graduação, um agente de transformação profissional e pessoal. Gratidão pela oportunidade, orientação, suporte, conversas e ensinamentos.Agradeço o professor Rui Aguiar do Instituto de Telecomunicações da Universidade de Aveiro pela valiosa coorientação nesta pesquisa.Agradecimentos ao professor e amigo Pedro Frosi da Universidade Federal de Uberlândia pela ajuda, humanidade, conversas e direcionamentos ao longo da Pósgraduação.Gratidão aos professores do Programa de Pós-Graduação em Ciência da Computação da Universidade Federal de Uberlândia, em especial àqueles que me honraram com seus ensinamentos, professores:

show abstract

Flent

Cited by 25 publications

References 10 publications

TC-RAN: A Programmable Traffic Control Service Model for 5G/6G SD-RAN

TC-RAN: A Programmable Traffic Control Service Model for 5G/6G SD-RAN

Transmission Control Protocol and Active Queue Management together against congestion: cross-comparison through simulations

Uma Abordagem de Fatiamento de Rede entre Múltiplos Sistemas Autônomos

Contact Info

Product

Resources

About