1,870 research outputs found
Overlay Protection Against Link Failures Using Network Coding
This paper introduces a network coding-based protection scheme against single
and multiple link failures. The proposed strategy ensures that in a connection,
each node receives two copies of the same data unit: one copy on the working
circuit, and a second copy that can be extracted from linear combinations of
data units transmitted on a shared protection path. This guarantees
instantaneous recovery of data units upon the failure of a working circuit. The
strategy can be implemented at an overlay layer, which makes its deployment
simple and scalable. While the proposed strategy is similar in spirit to the
work of Kamal '07 & '10, there are significant differences. In particular, it
provides protection against multiple link failures. The new scheme is simpler,
less expensive, and does not require the synchronization required by the
original scheme. The sharing of the protection circuit by a number of
connections is the key to the reduction of the cost of protection. The paper
also conducts a comparison of the cost of the proposed scheme to the 1+1 and
shared backup path protection (SBPP) strategies, and establishes the benefits
of our strategy.Comment: 14 pages, 10 figures, accepted by IEEE/ACM Transactions on Networkin
Network Coding-based Protection Strategies Against a Single Link Failure in Optical Networks
In this paper we develop network protection strategies against a single link
failure in optical networks. The motivation behind this work is the fact that
of all available links in an optical network suffers from a single link
failure. In the proposed protection strategies, denoted NPS-I and NPS-II, we
deploy network coding and reduced capacity on the working paths to provide a
backup protection path that will carry encoded data from all sources. In
addition, we provide implementation aspects and how to deploy the proposed
strategies in case of an optical network with disjoint working paths.Comment: 6 pages, 3 figures, ICCES '0
Scalable and Cost Efficient Algorithms for Virtual CDN Migration
Virtual Content Delivery Network (vCDN) migration is necessary to optimize
the use of resources and improve the performance of the overall SDN/NFV-based
CDN function in terms of network operator cost reduction and high streaming
quality. It requires intelligent and enticed joint SDN/NFV migration algorithms
due to the evident huge amount of traffic to be delivered to end customers of
the network. In this paper, two approaches for finding the optimal and near
optimal path placement(s) and vCDN migration(s) are proposed (OPAC and HPAC).
Moreover, several scenarios are considered to quantify the OPAC and HPAC
behaviors and to compare their efficiency in terms of migration cost, migration
time, vCDN replication number, and other cost factors. Then, they are
implemented and evaluated under different network scales. Finally, the proposed
algorithms are integrated in an SDN/NFV framework. Index Terms: vCDN; SDN/NFV
Optimization; Migration Algorithms; Scalability Algorithms.Comment: 9 pages, 11 figures, 4 tableaux, conference Local Computer Networks
(LCN), class
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