SmineshC. N.1
, Grace Mary Kanaga E.2
, and Ranjitha K.3
1&3 Dept. of Computer Science and Engineering, Govt. Engineering College, Thrissur,
India
2
Dept. of Computer Science and Engineering, Karunya Institute of Technology and
Sciences, Coimbatore, India
ABSTRACT
The centralized architecture in software-defined network (SDN) provides a global view of the underlying
network, paving the way for enormous research in the area of SDN traffic engineering (SDN TE). This
research focuses on the load balancing aspects of SDN TE, given that the existing reactive methods for
data-plane load balancing eventually result in packet loss and proactive schemes for data plane load
balancing do not address congestion propagation. In the proposed work, the SDN controller periodically
monitors flow level statistics and utilization on each link in the network and over-utilized links that cause
network congestion and packet loss are identified as bottleneck links. For load balancing the identified
largest flow and further traffic through these bottleneck links are rerouted through the lightly-loaded
alternate path. The proposed scheme models a Bayesian Network using the observed port utilization and
residual bandwidth to decide whether the newly computed alternate path can handle the new flow load
before flow admission which in turn reduces congestion propagation. The simulation results show that
when the network traffic increases the proposed method efficiently re-routes the flows and balance the
network load which substantially improves the network efficiency and the quality of service (QoS)
parameters.
KEYWORDS
Bayesian Network, QoS, SDN, Traffic Engineering, Congestion Propagation.
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