Joint Optimization of Rule Placement and Traffic Engineering for QoS Provisioning in Software Defined Network

Huang, Huawei; Guo, Song; Li, Peng; Ye, Baoliu; Stojmenović, Ivan

doi:10.1109/tc.2015.2401031

Cited by 63 publications

(35 citation statements)

References 27 publications

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“…Regarding QoS management in SDN networks, the rule placement and caching in SDN switches have been studied in [13,14]. Given a set of sessions with certain QoS requirements, instead of installing all the forwarding rules and QoS requirement rules in every switch, the authors of [13] divide a session into several independent sub-sessions with different subsets of QoS requirement rules, which are scattered across multiple switches, to reduce the TCAM usage.…”

Section: Related Workmentioning

confidence: 99%

“…Given a set of sessions with certain QoS requirements, instead of installing all the forwarding rules and QoS requirement rules in every switch, the authors of [13] divide a session into several independent sub-sessions with different subsets of QoS requirement rules, which are scattered across multiple switches, to reduce the TCAM usage. In [14], the authors studied the rule caching problem in SDN in order to minimize the amount of TCAM and remote controller processing cost.…”

Section: Related Workmentioning

confidence: 99%

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A Software-Defined Networking Framework to Provide Dynamic QoS Management in IEEE 802.11 Networks

Manzanares‐López

Malgosa‐Sanahuja

Muñoz‐Gea

2018

Sensors

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In this paper, the concept of SDN (Software Defined Networking) is extended to be applied to wireless networks. Traditionally, in a wired SDN environment, the OpenFlow protocol is the communication protocol used to configure the flow table of forwarding elements (i.e., switches and Access Points). However, although in IEEE 802.11 networks there is no concept of forwarding, the SDN paradigm could also be applied to set up the wireless network dynamically, in order to improve the performance. In this case, not only the network elements, that is the Access Points, but also the mobile elements should configure their link and physical layers parameters following the guidelines of a centralized SDN controller. In particular, we propose a mechanism called DEDCA (Dynamic Enhanced Distributed Channel Access) to manage the channel access in wireless networks, and a framework that enables its implementation in 802.11-based wireless networks using SDN technology. The key aspect of this alternative solution is the control over the contention window size of the wireless terminals. Thus, an adequate response to dynamic and short-term Quality of Service (QoS) requirements can be offered to services running on these networks. DEDCA mechanism relies upon the use of a scalar parameter called gain. The mathematical model which has allowed us to obtain this parameter is presented and evaluated in this paper. Finally, the usefulness of the proposed solutions have been evaluated by means of their implementation in an example case.

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Section: Related Workmentioning

confidence: 99%

Section: Related Workmentioning

confidence: 99%

A Software-Defined Networking Framework to Provide Dynamic QoS Management in IEEE 802.11 Networks

Manzanares‐López

Malgosa‐Sanahuja

Muñoz‐Gea

2018

Sensors

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“…Under this circumstance, the bottleneck of the datacenter networks usually is the core switches, which encounter a massive number of flows [9] . Due to the development of Open vSwitch and Overlay technologies, the resource shortages of edge switches have been eased [10] , which means the switches 5 , and v 6 are highly likely to encounter resource shortages and deployment delay problems in Fig. 1.…”

Section: Trpsmentioning

confidence: 99%

“…However, due to the high price and energy consumption of Ternary Content Addressable Memory (TCAM) units, an SDN switch usually contains only a few thousand flow rules [4] . Recent testing results show a 3.3 ms delay when inserting a single flow rule into a flow table on a commodity switch [5] . Deployment delays are critical for many applications, e.g., the authors of Ref.…”

Section: Introductionmentioning

confidence: 99%

Hybrid routing by joint optimization of per-flow routing and tag-based routing in software-defined networks

Zhao

Huang

et al. 2018

Tinshhua Sci. Technol.

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In recent years, Software-Defined Networks (SDNs) have become a promising technology to improve network utilization. However, limited flow table size and long deployment delays may result in low network performance in large-scale networks and a poor user experience. While a typical solution to this issue is routing aggregation (i.e., wildcard routing), the aggregation feasibility problem and reduced network performance may be encountered. To address this dilemma, we first design a novel wildcard routing scheme, called the Tag-based Rule Placement Scheme (TRPS). We then formulate a Hybrid Routing by Joint optimization of Per-flow routing and Tagbased routing (HR-JPT) problem, and prove its NP-hardness. An algorithm with a bounded approximation factor is designed for this problem, and the proposed methods are implemented on a Mininet platform. Extensive simulation results show that our methods are efficient for wildcard/hybrid routing. For example, our proposed tag-based wildcard rule placement scheme can reduce the number of required rules by about 65% on average compared with previous wildcard routing methods. Our proposed hybrid routing algorithm can increase network throughput by about 43% compared with existing hybrid routing solutions.

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“…The authors considered the calculation of optimal paths per domain (ie, local minimum) and the sharing of this knowledge between distributed SDN controllers. In Huang et al, given the high cost and energy consumption of the ternary content‐addressable memories (TCAMs) that are used in SDN‐enabled switches to store flow forwarding rules, the authors proposed an efficient use of such memories. For this purpose, a study based jointly on traffic engineering and rule placement is conducted.…”

Section: Introductionmentioning

confidence: 99%

A consistent QoS routing strategy for video streaming services in SDN networks

Henni

Ghomari

Hadjadj‐Aoul

2019

Int J Communication

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The software-defined networking (SDN) paradigm proposes to decouple the control plane (decision-making process) and the data plane (packet forwarding) to overcome the limitations of traditional network infrastructures, which are known to be difficult to manage, especially at scale. Although there are previous works focusing on the problem of quality of service (QoS) routing in SDN networks, only few solutions have taken into consideration the network consistency, which reflects the adequacy between the decisions made and the decisions that should be taken. Therefore, we propose a network architecture that guarantees the consistency of the decisions to be taken in an SDN network. A consistent QoS routing strategy is then introduced in a way that avoids any quality degradation of prioritized traffic while optimizing resources usage. Thus, we proposed a traffic dispersion heuristic in order to achieve this goal. We compared our approach with several existing framework in terms of best-effort flows average throughput, average video bitrate, and video quality of experience (QoE). The emulation results, which are performed using the Mininet environment, clearly demonstrate the effectiveness of the proposed approach that outperforms existing frameworks.How to cite this article: Henni D, E, Ghomari A, Hadjadj-Aoul Y. A consistent QoS routing strategy for video streaming services in SDN networks. Int J Commun Syst. 2020;33:e4177. https://doi.

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Joint Optimization of Rule Placement and Traffic Engineering for QoS Provisioning in Software Defined Network

Cited by 63 publications

References 27 publications

A Software-Defined Networking Framework to Provide Dynamic QoS Management in IEEE 802.11 Networks

A Software-Defined Networking Framework to Provide Dynamic QoS Management in IEEE 802.11 Networks

Hybrid routing by joint optimization of per-flow routing and tag-based routing in software-defined networks

A consistent QoS routing strategy for video streaming services in SDN networks

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