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dc.contributor.advisorHadjinicolaou, M-
dc.contributor.authorKiourktsidis, Ilias-
dc.descriptionThis thesis was submitted for the degree of Doctor of Philosophy and was awarded by Brunel Universityen_US
dc.description.abstractMobile Ad hoc Networks (MANETs) are becoming increasingly important because of their unique characteristics of connectivity. Several delay sensitive applications are starting to appear in these kinds of networks. Therefore, an issue in concern is to guarantee Quality of Service (QoS) in such constantly changing communication environment. The classical QoS aware solutions that have been used till now in the wired and infrastructure wireless networks are unable to achieve the necessary performance in the MANETs. The specialized protocols designed for multihop ad hoc networks offer basic connectivity with limited delay awareness and the mobility factor in the MANETs makes them even more unsuitable for use. Several protocols and solutions have been emerging in almost every layer in the protocol stack. The majority of the research efforts agree on the fact that in such dynamic environment in order to optimize the performance of the protocols, there is the need for additional information about the status of the network to be available. Hence, many cross layer design approaches appeared in the scene. Cross layer design has major advantages and the necessity to utilize such a design is definite. However, cross layer design conceals risks like architecture instability and design inflexibility. The aggressive use of cross layer design results in excessive increase of the cost of deployment and complicates both maintenance and upgrade of the network. The use of autonomous protocols like bio-inspired mechanisms and algorithms that are resilient on cross layer information unavailability, are able to reduce the dependence on cross layer design. In addition, properties like the prediction of the dynamic conditions and the adaptation to them are quite important characteristics. The design of a routing decision algorithm based on Bayesian Inference for the prediction of the path quality is proposed here. The accurate prediction capabilities and the efficient use of the plethora of cross layer information are presented. Furthermore, an adaptive mechanism based on the Genetic Algorithm (GA) is used to control the flow of the data in the transport layer. The aforementioned flow control mechanism inherits GA’s optimization capabilities without the need of knowing any details about the network conditions, thus, reducing the cross layer information dependence. Finally, is illustrated how Bayesian Inference can be used to suggest configuration parameter values to the other protocols in different layers in order to improve their performance.en_US
dc.description.sponsorshipNational Foundation of Scholarships of Greece(I.K.Y.)en_US
dc.publisherBrunel University School of Engineering and Design PhD Theses-
dc.subjectGenetic algorithmen_US
dc.subjectBayesian networksen_US
dc.subjectMachine learningen_US
dc.subjectDynamic routingen_US
dc.subjectFlow controlen_US
dc.titleFlexible cross layer design for improved quality of service in MANETsen_US
Appears in Collections:Electronic and Computer Engineering
Dept of Electronic and Computer Engineering Theses

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