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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
41

Mobility-based Routing Overhead Management in Reconfigurable Wireless Ad hoc Networks / Ein mobilitätsbasiertes Routing-Overhead-Management für rekonfigurierbar drahtlose ad-hoc-netzwerke

Gikaru, Wilfred Githuka 30 October 2004 (has links) (PDF)
Mobility-Based Routing Overhead Management in Reconfigurable Wireless Ad Hoc Networks Routing Overheads are the non-data message packets whose roles are establishment and maintenance of routes for data packets as well as neighbourhood discovery and maintenance. They have to be broadcasted in the network either through flooding or other techniques that can ensure that a path exists before data packets can be sent to various destinations. They can be sent reactively or periodically to neighbours so as to keep nodes updated on their neighbourhoods. While we cannot do without these overhead packets, they occupy much of the limited wireless bandwidth available in wireless networks. In a reconfigurable wireless ad hoc network scenario, these packets have more negative effects, as links need to be confirmed more frequently than in traditional networks mainly because of the unpredictable behaviour of the ad hoc networks. We therefore need suitable algorithms that will manage these overheads so as to allow data packet to have more access to the wireless medium, save node energy for longer life of the network, increased efficiency, and scalability. Various protocols have been suggested in the research area. They mostly address routing overheads for suitability of particular protocols leading to lack of standardisation and inapplicability to other protocol classes. In this dissertation ways of ensuring that the routing overheads are kept low are investigated. The issue is addressed both at node and network levels with a common goal of improving efficiency and performance of ad hoc networks without dedicating ourselves to a particular class of routing protocol. At node level, a method hereby referred to as "link availability forecast", that minimises routing overheads used for maintenance of neighbourhood, is derived. The targeted packets are packets that are broadcasted periodically (e.g. hello messages). The basic idea in this method is collection of mobility parameters from the neighbours and predictions or forecasts of these parameters in future. Using these parameters in simple calculations helps in identifying link availabilities between nodes participating in maintenance of networks backbone. At the network level, various approaches have been suggested. The first approach is the cone flooding method that broadcasts route request messages through a predetermined cone shaped region. This region is determined through computation using last known mobility parameters of the destination. Another approach is what is hereby referred as "destination search reverse zone method". In this method, a node will keep routes to destinations for a long time and use these routes for tracing the destination. The destination will then initiate route search in a reverse manner, whereby the source selects the best route for next delivery. A modification to this method is for the source node to determine the zone of route search and define the boundaries within which the packet should be broadcasted. The later method has been used for simulation purposes. The protocol used for verification of the improvements offered by the schemes was the AODV. The link availability forecast scheme was implemented on the AODV and labelled AODV_LA while the network level implementation was labelled AODV_RO. A combination of the two schemes was labelled AODV_LARO.
42

Dimensionamento em redes ad hoc : trafego e interferencia combinados / Dimensioning ad hoc networks : traffic and interference combined.

Medeiros, Alvaro Augusto Machado de 07 June 2007 (has links)
Orientador: Michel Daoud Yacoub / Tese (doutorado) - Universidade Estadual de Campinas, Faculdade de Engenharia Eletrica e de Computação / Made available in DSpace on 2018-08-10T09:17:00Z (GMT). No. of bitstreams: 1 Medeiros_AlvaroAugustoMachadode_D.pdf: 910419 bytes, checksum: 8fee720ee964b6908659ff1ab27c754e (MD5) Previous issue date: 2007 / Resumo: As redes ad hoc são redes sem um controle centralizado, cujos nós se comunicam através de um canal sem fio diretamente ou através de múltiplos saltos. Uma questão complexa referente a redes ad hoc é o cálculo da capacidade. Estimar quantas transmissões a rede permite, garantindo qualidade de serviço aos usuarios é uma tarefa difícil em virtude de duas características da rede: o canal sem fio e as transmissões em múltiplos saltos. Este trabalho propõe um novo método para cálculo da capacidade através da probabilidade de outage que considera ambos os aspectos. Este método apresenta vantagens como fácil implantação, baixo esforço computacional e resultados praticamente indistinguíveis daqueles obtidos atraves de simulação. O metodo pode ser aplicado aos mais variados ambientes de propagação e qualquer topologia de rede. Modelos de interferência mais realistas, bem como a questão do roteamento são também abordados ao longo do trabalho / Abstract: Ad hoc networks are networks that operate without centralized control, whose nodes communicate through wireless links in a single or multihop way. A complex issue about ad hoc networks is the capacity estimation. The computation of how many transmissions the network can support ensuring a quality of service for its users is a difficult task due to two central aspects: the wireless medium and the multihop nature of transmissions. An analytical method to calculate the capacity through the computation of the outage probability considering both aspects is proposed in this work. This method presents advantages such as simple implementation, low computational efforts and practically indistinguishable results from those obtained through simulation. This method can be applied to many propagation environments and to any network topology. More realistic interference models and the routing issue are also described along this work / Doutorado / Telecomunicações e Telemática / Doutor em Engenharia Elétrica
43

Mobility-based Routing Overhead Management in Reconfigurable Wireless Ad hoc Networks

Gikaru, Wilfred Githuka 09 November 2004 (has links)
Mobility-Based Routing Overhead Management in Reconfigurable Wireless Ad Hoc Networks Routing Overheads are the non-data message packets whose roles are establishment and maintenance of routes for data packets as well as neighbourhood discovery and maintenance. They have to be broadcasted in the network either through flooding or other techniques that can ensure that a path exists before data packets can be sent to various destinations. They can be sent reactively or periodically to neighbours so as to keep nodes updated on their neighbourhoods. While we cannot do without these overhead packets, they occupy much of the limited wireless bandwidth available in wireless networks. In a reconfigurable wireless ad hoc network scenario, these packets have more negative effects, as links need to be confirmed more frequently than in traditional networks mainly because of the unpredictable behaviour of the ad hoc networks. We therefore need suitable algorithms that will manage these overheads so as to allow data packet to have more access to the wireless medium, save node energy for longer life of the network, increased efficiency, and scalability. Various protocols have been suggested in the research area. They mostly address routing overheads for suitability of particular protocols leading to lack of standardisation and inapplicability to other protocol classes. In this dissertation ways of ensuring that the routing overheads are kept low are investigated. The issue is addressed both at node and network levels with a common goal of improving efficiency and performance of ad hoc networks without dedicating ourselves to a particular class of routing protocol. At node level, a method hereby referred to as "link availability forecast", that minimises routing overheads used for maintenance of neighbourhood, is derived. The targeted packets are packets that are broadcasted periodically (e.g. hello messages). The basic idea in this method is collection of mobility parameters from the neighbours and predictions or forecasts of these parameters in future. Using these parameters in simple calculations helps in identifying link availabilities between nodes participating in maintenance of networks backbone. At the network level, various approaches have been suggested. The first approach is the cone flooding method that broadcasts route request messages through a predetermined cone shaped region. This region is determined through computation using last known mobility parameters of the destination. Another approach is what is hereby referred as "destination search reverse zone method". In this method, a node will keep routes to destinations for a long time and use these routes for tracing the destination. The destination will then initiate route search in a reverse manner, whereby the source selects the best route for next delivery. A modification to this method is for the source node to determine the zone of route search and define the boundaries within which the packet should be broadcasted. The later method has been used for simulation purposes. The protocol used for verification of the improvements offered by the schemes was the AODV. The link availability forecast scheme was implemented on the AODV and labelled AODV_LA while the network level implementation was labelled AODV_RO. A combination of the two schemes was labelled AODV_LARO.
44

Protocol design and performance evaluation for wireless ad hoc networks

Tong, Fei 10 November 2016 (has links)
Benefiting from the constant and significant advancement of wireless communication technologies and networking protocols, Wireless Ad hoc NETwork (WANET) has played a more and more important role in modern communication networks without relying much on existing infrastructures. The past decades have seen numerous applications adopting ad hoc networks for service provisioning. For example, Wireless Sensor Network (WSN) can be widely deployed for environment monitoring and object tracking by utilizing low-cost, low-power and multi-function sensor nodes. To realize such applications, the design and evaluation of communication protocols are of significant importance. Meanwhile, the network performance analysis based on mathematical models is also in great need of development and improvement. This dissertation investigates the above topics from three important and fundamental aspects, including data collection protocol design, protocol modeling and analysis, and physical interference modeling and analysis. The contributions of this dissertation are four-fold. First, this dissertation investigates the synchronization issue in the duty-cycled, pipelined-scheduling data collection of a WSN, based on which a pipelined data collection protocol, called PDC, is proposed. PDC takes into account both the pipelined data collection and the underlying schedule synchronization over duty-cycled radios practically and comprehensively. It integrates all its components in a natural and seamless way to simplify the protocol implementation and to achieve a high energy efficiency and low packet delivery latency. Based on PDC, an Adaptive Data Collection (ADC) protocol is further proposed to achieve dynamic duty-cycling and free addressing, which can improve network heterogeneity, load adaptivity, and energy efficiency. Both PDC and ADC have been implemented in a pioneer open-source operating system for the Internet of Things, and evaluated through a testbed built based on two hardware platforms, as well as through emulations. Second, Linear Sensor Network (LSN) has attracted increasing attention due to the vast requirements on the monitoring and surveillance of a structure or area with a linear topology. Being aware that, for LSN, there is few work on the network modeling and analysis based on a duty-cycled MAC protocol, this dissertation proposes a framework for modeling and analyzing a class of duty-cycled, multi-hop data collection protocols for LSNs. With the model, the dissertation thoroughly investigates the PDC performance in an LSN, considering both saturated and unsaturated scenarios, with and without retransmission. Extensive OPNET simulations have been carried out to validate the accuracy of the model. Third, in the design and modeling of PDC above, the transmission and interference ranges are defined for successful communications between a pair of nodes. It does not consider the cumulative interference from the transmitters which are out of the contention range of a receiver. Since most performance metrics in wireless networks, such as outage probability, link capacity, etc., are nonlinear functions of the distances among communicating, relaying, and interfering nodes, a physical interference model based on distance is definitely needed in quantifying these metrics. Such quantifications eventually involve the Nodal Distance Distribution (NDD) intrinsically depending on network coverage and nodal spatial distribution. By extending a tool in integral geometry and using decomposition and recursion, this dissertation proposes a systematic and algorithmic approach to obtaining the NDD between two nodes which are uniformly distributed at random in an arbitrarily-shaped network. Fourth, with the proposed approach to NDDs, the dissertation presents a physical interference model framework to analyze the cumulative interference and link outage probability for an LSN running the PDC protocol. The framework is further applied to analyze 2D networks, i.e., ad hoc Device-to-Device (D2D) communications underlaying cellular networks, where the cumulative interference and link outage probabilities for both cellular and D2D communications are thoroughly investigated. / Graduate / 0984 / 0544 / tong1987fei@163.com
45

Contact prediction, routing and fast information spreading in social networks

Jahanbakhsh, Kazem 20 August 2012 (has links)
The astronomical increase in the number of wireless devices such as smart phones in 21th century has revolutionized the way people communicate with one another and share information. The new wireless technologies have also enabled researchers to collect real data about how people move and meet one another in different social settings. Understanding human mobility has many applications in different areas such as traffic planning in cities and public health studies of epidemic diseases. In this thesis, we study the fundamental properties of human contact graphs in order to characterize how people meet one another in different social environments. Understanding human contact patterns in return allows us to propose a cost-effective routing algorithm for spreading information in Delay Tolerant Networks. Furthermore, we propose several contact predictors to predict the unobserved parts of contact graphs when only partial observations are available. Our results show that we are able to infer hidden contacts of real contact traces by exploiting the underlying properties of contact graphs. In the last few years, we have also witnessed an explosion in the number of people who use social media to share information with their friends. In the last part of this thesis, we study the running times of several information spreading algorithms in social networks in order to find the fastest strategy. Fast information spreading has an obvious application in advertising a product to a large number of people in a short amount of time. We prove that a fast information spreading algorithm should efficiently identify communication bottlenecks in order to speed up the running time. Finally, we show that sparsifying large social graphs by exploiting the edge-betweenness centrality measure can also speed up the information spreading rate. / Graduate
46

Kooperative Angriffserkennung in drahtlosen Ad-hoc- und Infrastrukturnetzen

Groß, Stephan 21 December 2011 (has links) (PDF)
Mit der zunehmenden Verbreitung mobiler Endgeräte und Dienste ergeben sich auch neue Herausforderungen für ihre Sicherheit. Diese lassen sich nur teilweise mit herkömmlichen Sicherheitsparadigmen und -mechanismen meistern. Die Gründe hierfür sind in den veränderten Voraussetzungen durch die inhärenten Eigenschaften mobiler Systeme zu suchen. Die vorliegende Arbeit thematisiert am Beispiel von Wireless LANs die Entwicklung von Sicherheitsmechanismen für drahtlose Ad-hoc- und Infrastrukturnetze. Sie stellt dabei den umfassenden Schutz der einzelnen Endgeräte in den Vordergrund, die zur Kompensation fehlender infrastruktureller Sicherheitsmaßnahmen miteinander kooperieren. Den Ausgangspunkt der Arbeit bildet eine Analyse der Charakteristika mobiler Umgebungen, um grundlegende Anforderungen an eine Sicherheitslösung zu identifizieren. Anhand dieser werden existierende Lösungen bewertet und miteinander verglichen. Der so gewonnene Einblick in die Vor- und Nachteile präventiver, reaktiver und angriffstoleranter Mechanismen führt zu der Konzeption einer hybriden universellen Rahmenarchitektur zur Integration beliebiger Sicherheitsmechanismen in einem kooperativen Verbund. Die Validierung des Systementwurfs erfolgt anhand einer zweigeteilten prototypischen Implementierung. Den ersten Teil bildet die Realisierung eines verteilten Network Intrusion Detection Systems als Beispiel für einen Sicherheitsmechanismus. Hierzu wird eine Methodik beschrieben, um anomalie- und missbrauchserkennende Strategien auf beliebige Netzprotokolle anzuwenden. Die Machbarkeit des geschilderten Ansatzes wird am Beispiel von infrastrukturellem WLAN nach IEEE 802.11 demonstriert. Den zweiten Teil der Validierung bildet der Prototyp einer Kooperations-Middleware auf Basis von Peer-to-Peer-Technologien für die gemeinsame Angriffserkennung lose gekoppelter Endgeräte. Dieser kompensiert bisher fehlende Mechanismen zur optimierten Abbildung des Overlay-Netzes auf die physische Struktur drahtloser Netze, indem er nachträglich die räumliche Position mobiler Knoten in die Auswahl eines Kooperationspartners einbezieht. Die zusätzlich definierte Schnittstelle zu einem Vertrauensmanagementsystem ermöglicht die Etablierung von Vertrauensbeziehungen auf Kooperationsebene als wichtige Voraussetzung für den Einsatz in realen Umgebungen. Als Beispiel für ein Vertrauensmanagementsystem wird der Einsatz von Reputationssystemen zur Bewertung der Verlässlichkeit eines mobilen Knotens diskutiert. Neben einem kurzen Abriss zum Stand der Forschung in diesem Gebiet werden dazu zwei Vorschläge für die Gestaltung eines solchen Systems für mobile Ad-hoc-Netze gemacht. / The increasing deployment of mobile devices and accompanying services leads to new security challenges. Due to the changed premises caused by particular features of mobile systems, these obstacles cannot be solved solely by traditional security paradigms and mechanisms. Drawing on the example of wireless LANs, this thesis examines the development of security mechanisms for wireless ad hoc and infrastructural networks. It places special emphasis on the comprehensive protection of each single device as well as compensating missing infrastructural security means by cooperation. As a starting point this thesis analyses the characteristics of mobile environments to identify basic requirements for a security solution. Based on these requirements existing preventive, reactive and intrusion tolerant approaches are evaluated. This leads to the conception of a hybrid and universal framework to integrate arbitrary security mechanisms within cooperative formations. The resulting system design is then validated by a twofold prototype implementation. The first part consists of a distributed network intrusion detection system as an example for a security mechanism. After describing a methodology for applying anomaly- as well as misuse-based detection strategies to arbitrary network protocols, the feasibility of this approach is demonstrated for IEEE 802.11 infrastructural wireless LAN. The second part of the validation is represented by the prototype of a P2P-based cooperation middleware for collaborative intrusion detection by loosely coupled devices. Missing mechanisms for the improved mapping of overlay and physical network structures are compensated by subsequently considering the spatial position of a mobile node when choosing a cooperation partner. Furthermore, an additional interface to an external trust management system enables the establishment of trust relationships as a prerequisite for a deployment in real world scenarios. Reputation systems serve as an example of such a trust management system that can be used to estimate the reliability of a mobile node. After outlining the state of the art, two design patterns of a reputation system for mobile ad hoc networks are presented.
47

Coding for wireless ad-hoc and sensor networks: unequal error protection and efficient data broadcasting

Rahnavard, Nazanin 27 August 2007 (has links)
This thesis investigates both theoretical and practical aspects of the design and analysis of modern error-control coding schemes, namely low-density parity-check (LDPC) codes and rateless codes for unequal error protection (UEP). It also studies the application of modern error-control codes in efficient data dissemination in wireless ad-hoc and sensor networks. Two methodologies for the design and analysis of UEP-LDPC codes are proposed. For these proposed ensembles, density evolution formulas over the binary erasure channel are derived and used to optimize the degree distribution of the codes. Furthermore, for the first time, rateless codes that can provide UEP are developed. In addition to providing UEP, the proposed codes can be used in applications for which unequal recovery time is desirable, i.e., when more important parts of data are required to be recovered faster than less important parts. Asymptotic behavior of the UEP-rateless codes under the iterative decoding is investigated. In addition, the performance of the proposed codes is examined under the maximum-likelihood decoding, when the codes have short to moderate lengths. Results show that UEP-rateless codes are able to provide very low error rates for more important bits with only a subtle loss in the performance of less important bits. Moreover, it is shown that given a target bit error rate, different parts of the information symbols can be decoded after receiving different numbers of encoded symbols. This implies that information can be recovered in a progressive manner, which is of interest in many practical applications such as media-on-demand systems. This work also explores fundamental research problems related to applying error-control coding such as rateless coding to the problem of reliable and energy-efficient broadcasting in multihop wireless ad-hoc sensor networks. The proposed research touches on the four very large fields of wireless networking, coding theory, graph theory, and percolation theory. Based on the level of information that each node has about the network topology, several reliable and energy-efficient schemes are proposed, all of which are distributed and have low complexity of implementation. The first protocol does not require any information about the network topology. Another protocol, which is more energy efficient, assumes each node has local information about the network topology. In addition, this work proposes a distributed scheme for finding low-cost broadcast trees in wireless networks. This scheme takes into account various parameters such as distances between nodes and link losses. This protocol is then extended to find low-cost multicast trees. Several schemes are extensively simulated and are compared.
48

Kooperative Angriffserkennung in drahtlosen Ad-hoc- und Infrastrukturnetzen: Anforderungsanalyse, Systementwurf und Umsetzung

Groß, Stephan 01 December 2008 (has links)
Mit der zunehmenden Verbreitung mobiler Endgeräte und Dienste ergeben sich auch neue Herausforderungen für ihre Sicherheit. Diese lassen sich nur teilweise mit herkömmlichen Sicherheitsparadigmen und -mechanismen meistern. Die Gründe hierfür sind in den veränderten Voraussetzungen durch die inhärenten Eigenschaften mobiler Systeme zu suchen. Die vorliegende Arbeit thematisiert am Beispiel von Wireless LANs die Entwicklung von Sicherheitsmechanismen für drahtlose Ad-hoc- und Infrastrukturnetze. Sie stellt dabei den umfassenden Schutz der einzelnen Endgeräte in den Vordergrund, die zur Kompensation fehlender infrastruktureller Sicherheitsmaßnahmen miteinander kooperieren. Den Ausgangspunkt der Arbeit bildet eine Analyse der Charakteristika mobiler Umgebungen, um grundlegende Anforderungen an eine Sicherheitslösung zu identifizieren. Anhand dieser werden existierende Lösungen bewertet und miteinander verglichen. Der so gewonnene Einblick in die Vor- und Nachteile präventiver, reaktiver und angriffstoleranter Mechanismen führt zu der Konzeption einer hybriden universellen Rahmenarchitektur zur Integration beliebiger Sicherheitsmechanismen in einem kooperativen Verbund. Die Validierung des Systementwurfs erfolgt anhand einer zweigeteilten prototypischen Implementierung. Den ersten Teil bildet die Realisierung eines verteilten Network Intrusion Detection Systems als Beispiel für einen Sicherheitsmechanismus. Hierzu wird eine Methodik beschrieben, um anomalie- und missbrauchserkennende Strategien auf beliebige Netzprotokolle anzuwenden. Die Machbarkeit des geschilderten Ansatzes wird am Beispiel von infrastrukturellem WLAN nach IEEE 802.11 demonstriert. Den zweiten Teil der Validierung bildet der Prototyp einer Kooperations-Middleware auf Basis von Peer-to-Peer-Technologien für die gemeinsame Angriffserkennung lose gekoppelter Endgeräte. Dieser kompensiert bisher fehlende Mechanismen zur optimierten Abbildung des Overlay-Netzes auf die physische Struktur drahtloser Netze, indem er nachträglich die räumliche Position mobiler Knoten in die Auswahl eines Kooperationspartners einbezieht. Die zusätzlich definierte Schnittstelle zu einem Vertrauensmanagementsystem ermöglicht die Etablierung von Vertrauensbeziehungen auf Kooperationsebene als wichtige Voraussetzung für den Einsatz in realen Umgebungen. Als Beispiel für ein Vertrauensmanagementsystem wird der Einsatz von Reputationssystemen zur Bewertung der Verlässlichkeit eines mobilen Knotens diskutiert. Neben einem kurzen Abriss zum Stand der Forschung in diesem Gebiet werden dazu zwei Vorschläge für die Gestaltung eines solchen Systems für mobile Ad-hoc-Netze gemacht. / The increasing deployment of mobile devices and accompanying services leads to new security challenges. Due to the changed premises caused by particular features of mobile systems, these obstacles cannot be solved solely by traditional security paradigms and mechanisms. Drawing on the example of wireless LANs, this thesis examines the development of security mechanisms for wireless ad hoc and infrastructural networks. It places special emphasis on the comprehensive protection of each single device as well as compensating missing infrastructural security means by cooperation. As a starting point this thesis analyses the characteristics of mobile environments to identify basic requirements for a security solution. Based on these requirements existing preventive, reactive and intrusion tolerant approaches are evaluated. This leads to the conception of a hybrid and universal framework to integrate arbitrary security mechanisms within cooperative formations. The resulting system design is then validated by a twofold prototype implementation. The first part consists of a distributed network intrusion detection system as an example for a security mechanism. After describing a methodology for applying anomaly- as well as misuse-based detection strategies to arbitrary network protocols, the feasibility of this approach is demonstrated for IEEE 802.11 infrastructural wireless LAN. The second part of the validation is represented by the prototype of a P2P-based cooperation middleware for collaborative intrusion detection by loosely coupled devices. Missing mechanisms for the improved mapping of overlay and physical network structures are compensated by subsequently considering the spatial position of a mobile node when choosing a cooperation partner. Furthermore, an additional interface to an external trust management system enables the establishment of trust relationships as a prerequisite for a deployment in real world scenarios. Reputation systems serve as an example of such a trust management system that can be used to estimate the reliability of a mobile node. After outlining the state of the art, two design patterns of a reputation system for mobile ad hoc networks are presented.

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