Yousef Rafique scite author profile

Yousef Rafique

5Publications

32Citation Statements Received

35Citation Statements Given

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Carleton University, Kuwait University

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Power‐efficient routing for SDN with discrete link rates and size‐limited flow tables: A tree‐based particle swarm optimization approach

et al. 2017

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Summary Software‐defined networking is a promising networking paradigm for achieving programmability and centralized control in communication networks. These features simplify network management and enable innovation in network applications and services such as routing, virtual machine migration, load balancing, security, access control, and traffic engineering. The routing application can be optimized for power efficiency by routing flows and coalescing them such that the least number of links is activated with the lowest link rates. However, in practice, flow coalescing can generally overflow the flow tables, which are implemented in a size‐limited and power‐hungry ternary content addressable memory (TCAM). In this paper, a set of practical constraints is imposed to the software‐defined networking routing problem, namely, size‐limited flow table and discrete link rate constraints, to ensure applicability in real networks. Because the problem is NP‐hard and difficult to approximate, a low‐complexity particle swarm optimization–based and power‐efficient routing (PSOPR) heuristic is proposed. Performance evaluation results revealed that PSOPR achieves more than 90% of the optimal network power consumption while requiring only 0.0045% to 0.9% of the optimal computation time in real‐network topologies. In addition, PSOPR generates shorter routes than the optimal routes generated by CPLEX.

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Energy-aware routing for software-defined networks with discrete link rates: A benders decomposition-based heuristic approach

Awad

Rafique

M’Hallah

2017

Sustainable Computing: Informatics and Systems

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Carleton-Cisco IoT Testbed: Architecture, Features, and Applications

Bouida

Al-Shiab

Rafique

et al. 2021

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A greedy power-aware routing algorithm for software-defined networks

Awad

Rafique

Alhadlaq³

et al. 2016

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The impact of practical network constraints on the performance of energy-aware routing schemes

Awad

Neama

Rafique

2015

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Yousef Rafique

Power‐efficient routing for SDN with discrete link rates and size‐limited flow tables: A tree‐based particle swarm optimization approach

Energy-aware routing for software-defined networks with discrete link rates: A benders decomposition-based heuristic approach

Carleton-Cisco IoT Testbed: Architecture, Features, and Applications

A greedy power-aware routing algorithm for software-defined networks

The impact of practical network constraints on the performance of energy-aware routing schemes

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