Performance evaluation of communication networks
Performance evaluation of communication networks
Intelligent Packets For Dynamic Network Routing Using Distributed Genetic Algorithm
GECCO '02 Proceedings of the Genetic and Evolutionary Computation Conference
The effect of routing under local information using a social insect metaphor
CEC '02 Proceedings of the Evolutionary Computation on 2002. CEC '02. Proceedings of the 2002 Congress - Volume 02
AntNet: distributed stigmergetic control for communications networks
Journal of Artificial Intelligence Research
A comprehensive review of nature inspired routing algorithms for fixed telecommunication networks
Journal of Systems Architecture: the EUROMICRO Journal - Special issue: Nature-inspired applications and systems
A Scalable Formal Framework for Analyzing the Behavior of Nature-Inspired Routing Protocols
Proceedings of the 10th international conference on Parallel Problem Solving from Nature: PPSN X
PPSN'06 Proceedings of the 9th international conference on Parallel Problem Solving from Nature
BeeHiveGuard: a step towards secure nature inspired routing algorithms
EuroGP'06 Proceedings of the 2006 international conference on Applications of Evolutionary Computing
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Performance evaluation of routing protocols is an important area of research that deals with the analysis and investigation of such protocols. A performance evaluation framework unveils different facets of a protocol and explores its behavior under diversified network operations. The nature inspired routing community, at the moment, lacks such a framework. Therefore, in this paper we propose a comprehensive performance evaluation framework that will empower the routing protocol designers to design state-of-the-art algorithms and extensively evaluate their performance. Using our framework, we exhaustively evaluated three state-of-the-art nature inspired routing algorithms. The results show some undiscovered aspects of the algorithms and provide valuable understanding about their merits and demerits. We believe that this will be the first major step in designing, standardizing and developing a performance evaluation library that will facilitate an extensive and unbiased evaluation of nature inspired routing algorithms.