Global ETD Search

91	Distributed and cooperative intrusion detection in wireless mesh networks Morais, Anderson 28 November 2012 (has links) (PDF) Wireless Mesh Network (WMN) is an emerging technology that is gaining importance among traditional wireless communication systems. However, WMNs are particularly vulnerable to external and insider attacks due to their inherent attributes such as open communication medium and decentralized architecture. In this research, we propose a complete distributed and cooperative intrusion detection system for efficient and effective detection of WMN attacks in real-time. Our intrusion detection mechanism is based on reliable exchange of network events and active cooperation between the participating nodes. In our distributed approach, Intrusion Detection Systems (IDSs) are independently placed at each mesh node to passively monitor the node routing behavior and concurrently monitor the neighborhood behavior. Based on that, we first implement a Routing Protocol Analyzer (RPA) that accuracy generates Routing Events from the observed traffic, which are then processed by the own node and exchanged between neighboring nodes. Second, we propose a practical Distributed Intrusion Detection Engine (DIDE) component, which periodically calculates accurate Misbehaving Metrics by making use of the generated Routing Events and pre-defined Routing Constraints that are extracted from the protocol behavior. Third, we propose a Cooperative Consensus Mechanism (CCM), which is triggered among the neighboring nodes if any malicious behavior is detected. The CCM module analyzes the Misbehaving Metrics and shares Intrusion Detection Results among the neighbors to track down the source of intrusion. To validate our research, we implemented the distributed intrusion detection solution using a virtualized mesh network platform composed of virtual machines (VMs) interconnected. We also implemented several routing attacks to evaluate the performance of the intrusion detection mechanisms [INFO:INFO_OH] Computer Science/Other Wireless mesh networks Intrusion detection Cooperation Routing protocol Virtual machine Routing attack
92	Métriques de routage dans les réseaux maillés sans fil Sarr, Yaye 04 1900 (has links) Ces dernières années, les technologies sans fil ont connu un essor fulgurant. Elles ont permis la mise en place de réseaux sans fil à hautes performances. Les réseaux maillées sans fil (RMSF) sont une nouvelle génération de réseaux sans fil qui offrent des débits élevés par rapport aux réseaux Wi-Fi (Wireless Fidelity) classiques et aux réseaux ad-hoc. Ils présentent de nombreux avantages telles que leur forte tolérance aux pannes, leur robustesse, leur faible coût etc. Les routeurs des RMSF peuvent disposer de plusieurs interfaces radio et chaque interface peut opérer sur plusieurs canaux distincts, c’est des RMSF multiples-radios, multiples-canaux. Ce type de réseau peut accroître de manière considérable les performances des RMSF. Cependant plusieurs problèmes subsistent et doivent être résolus notamment celui du routage. Le routage dans les RMSF demeure un défi majeur. Le but des protocoles de routage est de trouver les meilleures routes i.e. des routes qui maximisent les débits et minimisent les délais, lors de l’acheminement du trafic. La qualité des routes dans les RMSF peut être fortement affectée par les interférences, les collisions, les congestions etc. Alors les protocoles doivent être en mesure de détecter ces problèmes pour pouvoir en tenir compte lors de la sélection des routes. Plusieurs études ont été dédiées aux métriques et aux protocoles de routage dans les RMSF afin de maximiser les performances de celles ci. Mais la plupart ne prennent pas en considération toutes les contraintes telles que les interférences, le problème des stations cachées etc. Ce mémoire propose une nouvelle métrique de routage pour RMSF. Nous avons mis en place une nouvelle métrique de routage pour RMSF appelée MBP (Metric Based on Probabilities). Cette métrique est destinée aux RMSF mono-radio ou multiples-radios. Elle permet d’éviter les routes à forte ii interférence. Les résultats des simulations ont montré que MBP présente des améliorations par rapport à certaines métriques : ETT, WCETT et iAWARE qui sont connues dans le domaine. / In recent years, wireless technologies have developed sharply. They allow the establishment of high performance wireless networks. Wireless Mesh Networks (WMNs) is a new generation of wireless networks that offer high throughput compared to classical Wi-Fi (Wireless Fidelity) or ad-hoc networks. WMNs have attracted significant research due to their features that include dynamic self organization, self configuration, easy maintenance and low cost. WMNs nodes can be equipped with multiples-radios and multiples-channels. This type of network can increase significantly the performance of WMNs. However, several problems must be solved including routing in WMNs. Routing in WMNs is a great challenge. The main goal of routing protocols is to find best paths i.e. paths that maximize throughputs and minimize delays when transmitting packets. Route quality can be strongly affected by interference, collisions, congestions etc. Then protocols should be able to detect these problems and take them into account during route selection. We propose a new routing metric for WMNs, called MBP that captures the impact of intra-flow and inter-flow interference in multi-radio, multi-channel networks. Results show that MBP has better performances than some existing and popular metrics like ETT, WCETT and iAWARE. réseaux maillés sans fil wireless mesh networks performances métrique metric routage routing mesure measure
93	Dynamic power control in backbone wireless mesh networks : a decentralized approach Olwal, Thomas 15 December 2010 (has links) (PDF) The remarkable evolution of wireless networks into the next generation to provide ubiquitous and seamless broadband applications has recently triggered the emergence of Wireless Mesh Networks (WMNs). The WMNs comprise stationary Wireless Mesh Routers (WMRs) forming Wireless Backbone Mesh Networks (WBMNs) and mobile Wireless Mesh Clients (WMCs) forming the WMN access. While WMCs are limited in function and radio resources, the WMRs are expected to support heavy duty applications : that is, WMRs have gateway and bridge functions to integrate WMNs with other networks such as the Internet, cellular, IEEE 802.11, IEEE 802.15, IEEE 802.16, sensor networks, et cetera. Consequently, WMRs are constructed from fast switching radios or multiple radio devices operating on multiple frequency channels. WMRs are expected to be self-organized, self-configured and constitute a reliable and robust WBMN which needs to sustain high traffic volumes and long "online" time. However, meeting such stringent service expectations requires the development of decentralized dynamic transmission power control (DTPC) approaches. This thesis addresses the DTPC problem for both single and multiple channel WBMNs. For single channel networks, the problem is formulated as the minimization of both the link-centric and network-centric convex cost function. In order to solve this issue, multiple access transmission aware (MATA) models and algorithms are proposed. For multi-radio multi-channel (MRMC) WBMNs, the network is modelled as sets of unified channel graphs (UCGs), each consisting of interconnected active network users communicating on the same frequency channel. For each UCG set, the minimization of stochastic quadratic cost functions are developed subject to the dynamic Link State Information (LSI) equations from all UCGs. An energy-efficient multi-radio unification protocol (PMMUP) is then suggested at the Link-Layer (LL). Predictive estimation algorithms based on this protocol are proposed to solve such objective functions. To address transmission energy and packet instabilities, and interference across multiple channels, singularly-perturbed weakly-coupled (SPWC) control problems are formulated. In order to solve the SPWC transmission power control problem, a generalized higher-order recursive algorithm (HORA) that obtains the Riccati Stabilizing Solutions to the control problem is developed. The performance behaviours of the proposed models and algorithms are evaluated both analytically and through computer simulations. Several simulations are performed on a large number of randomly generated topologies. Simulation and analytical results confirm the efficacy of the proposed algorithms compared to the most recently studied techniques [MATH] Mathematics [MATH] Mathématiques [INFO] Computer Science [INFO] Informatique Wireless Mesh Networks Dynamic Transmission Power Control Link State Information Coupled Optimal Control Theory Game Theory
94	AIGA: um ambiente integrado de ger?ncia para redes em malha sem fio IEEE 802.11s / AIGA: A Management Integrated Environmental for Wireless Mesh Networks IEEE 802.11s Carvalho, Dhiego Fernandes 31 March 2014 (has links) Made available in DSpace on 2014-12-17T15:48:09Z (GMT). No. of bitstreams: 1 DhiegoFC_DISSERT.pdf: 2315369 bytes, checksum: 0b56b1d402d2c768528a0bcc9847d87f (MD5) Previous issue date: 2014-03-31 / Conselho Nacional de Desenvolvimento Cient?fico e Tecnol?gico / A Wireless Mesh Network (WMN - Wireless Mesh Network) IEEE 802.11s standard to become operational it is necessary to configure the parameters that meet the demands of its users, as regards, for example, the frequency channels, the power antennas, IPs addresses, meshID, topology, among others. This configuration can be done via a CLI (Command - Line Interface) or a remote interface provided by the equipment manufacturer, both are not standardized and homogeneous, like black boxes for the developers, a factor that hinders its operation and standardization. The WMN, as a new standard, is still in the testing phase, and tests are necessary to evaluate the performance of Path Discovery Protocol, as in this case of HWMP (Hybrid Wireless Mesh Protocol), which still has many shortcomings. The configuration and test creation in a WMN are not trivial and require a large workload. For these reasons this work presents the AIGA, a Management Integrated Environment for WMN IEEE 802.11s, which aims to manage and perform testbeds for analyzes of new Path Discovery Protocols in a WMN / Por serem redes com diversas caracter?sticas interessantes como auto-organiza??o e toler?ncia a falhas, as Wireless Mesh Networks (WMN) vem sendo estudadas a bastante tempo pela comunidade cient?fica. Muitos desses estudos tipicamente s?o conduzidos utilizando redes em ambientes controlados conhecidos como testbeds. Al?m disso, ap?s a conclus?o do processo de padroniza??o do IEEE 802.11s as WMN baseadas nessa tecnologia vem sendo cada vez mais utilizadas como redes de produ??o nas organiza??es. Como s?o redes bastante flex?veis no que diz respeito ao seu modo de opera??o, pois suportam um elevado n?mero de par?metros de configura??o, a tarefa de gerenciamento dessas redes tende a ser muito complexa. N?o existe uma configura??o ideal que atenda a qualquer cen?rio, sendo preciso identificar o conjunto de valores que oferecem o melhor desempenho para cada caso. Desse modo, ap?s a configura??o da rede ? importante verificar se ela se comporta conforme esperado. Para isso, ? necess?rio injetar tr?fego na rede e monitorar seu comportamento. Este trabalho prop?e o AIGA, um Ambiente Integrado de Ger?ncia para Redes em Malha Sem Fio IEEE 802.11s, que facilita o gerenciamento de WMNs de produ??o bem como da utiliza??o de testbeds para realiza??o de experimentos
95	MLSD: um protocolo de divulgação de estados dos enlaces para redes em malha sem fio infraestruturadas Porto, Daniel Charles Ferreira 26 March 2010 (has links) Made available in DSpace on 2015-05-14T12:36:57Z (GMT). No. of bitstreams: 1 arquivototal.pdf: 2319492 bytes, checksum: 7322dcd074c1c36c3d7750aad585ca51 (MD5) Previous issue date: 2010-03-26 / Coordenação de Aperfeiçoamento de Pessoal de Nível Superior / The increasing popularity and demand of wireless networks, over the past few years, has led to new challenges that stimulate the development of technology to build better standards and protocols. In such a context arises the Wireless Mesh Networks (WMN) which are low cost, self-organized and self-configurable networks that are easy to deploy and are fault tolerant. The WMN are aiming to achieve better performance, greater reliability and flexibility when compared to other wireless networks. These networks can provide an infrastructure consisting of dedicated devices for routing, strategically placed to achieve adequate coverage, providing connectivity within the coverage area for mobile clients. Therefore, these networks need to adapt to topology changes that can occur at any time. To allow this adjustment a routing protocol is required. An important component of a proactive routing protocol is a network topology discovery protocol, which disseminates link-state updates messages over the network. The proactive protocols usually have a high message overhead. However, a high message overhead has a major impact on the performance of a routing protocol and can lead to scalability problems. In such a context, the main contribution of this work is to build a reliable link-state dissemination protocol, called MLSD specially designed for RMSF whose goals are to reduce the messages overhead and reduce the total messages sent to advertise topology changes. / O aumento da popularidade e da demanda das redes sem fio ao longo dos últimos anos tem levado a novos desafios que estimulam o desenvolvimento da tecnologia na busca de melhores padrões e protocolos. Neste contexto, surgem as Redes em Malha Sem Fio - RMSF (Wireless Mesh Networks WMN), que são redes de baixo custo, que tem a capacidade de se organizar e se configurar automaticamente, de fácil implantação e com capacidade de tolerância a falhas. As RMSFs buscam alcançar melhor desempenho, maior confiabilidade e flexibilidade quando comparadas a outras redes sem fio. Estas redes podem fornecer uma infraestrutura formada por dispositivos dedicados à tarefa de roteamento, com seu posicionamento planejado para obter cobertura satisfatória, proporcionando conectividade dentro da área de cobertura para os clientes móveis. Por isto, estas redes precisam se adaptar a alterações de topologia, que podem ocorrer a todo o momento. Para permitir esta adaptação é necessário um protocolo de roteamento. Um componente importante de um protocolo de roteamento proativo é um protocolo de descoberta de topologia da rede, no qual as modificações na topologia da rede são divulgadas através de mensagens de atualização. Entretanto, protocolos proativos possuem uma alta carga de mensagens. Uma carga elevada de mensagens tem grande impacto no desempenho do protocolo de roteamento e podem levar a problemas de escalabilidade. Neste contexto, a principal contribuição deste trabalho é a construção de um protocolo de divulgação dos estados dos enlaces com garantia de entrega, chamado Mesh Network Link State Dissemination Protocol - MLSD, projetado para RMSFs, cujos objetivos são reduzir a carga de mensagens de atualização na rede e reduzir o total de mensagens enviadas para divulgar as atualizações. Redes em Malha sem Fio escalabilidade protocolo de roteamento topologia e infraestrutura Wireless Mesh Networks scalability routing protocol topology and infrastructure
96	Comparative Analysis of Performance Routing Metrics for Multi-radio Wireless Mesh Networks Ivo, Akum Nji January 2008 (has links) Traditional Ad Hoc network wireless communication in the past years have contributed tremendously to the dawn of wireless mesh networks (WMNs) which have so far been able to provide a significant improvement in capacity and scalability. Routing metrics which form the basic element for the routing protocol in this innovative communication technology is a call for concern as they must take into consideration the wireless medium network characteristics in order to provide a optimum appreciable QoS performance. In the past many single-radio routing metrics have been proposed for Ad Hoc networks which are not compatible with the multi-radio routing scenario demanded by WMNs. In our work, we provide a comparative analysis of most recently proposed multi-radio routing metrics for WMNs. We begin by providing an overview of the features of a wireless mesh network thereby presenting a better understanding of some of the research challenges of WMNs. Also, since single-radio routing forms the basis of multi-radio routing, we in this regard provide a review of some single-radio routing metrics. In our comparative analysis, an overview of routing protocols for WMNs is provided enabling an understanding of the demands to be included in a routing metric to ensure efficient routing in WMNs since different routing protocols may impose different demands; we then identify the requirements of multi-radio routing metrics from which we base our comparative analysis. multi-radio Wireless Mesh Networks Routing metrics Wireless multi-hop networks Multi-channel performance Signal Processing Signalbehandling Computer Sciences Datavetenskap (datalogi) Telecommunications Telekommunikation
97	Enabling Multimedia Services over Wireless Multi-Hop Networks Cavalcanti de Castro, Marcel January 2009 (has links) With the constant development of wireless technologies, the usageof wireless devices tends to increase even more in the future.Wireless multi-hop networks (WMNs) have emerged as a keytechnology to numerous potential scenarios, ranging from disasterrecovery to wireless broadband internet access. The distributedarchitecture of WMNs enables nodes to cooperatively relay othernode's packets. Because of their advantages over other wirelessnetworks, WMNs are undergoing rapid progress and inspiringnumerous applications. However, many technical issues still existin this field. In this thesis we investigate how Voice over IP(VoIP) and peer-to-peer (P2P) application are influenced bywireless multi-hop network characteristics and how to optimizethem in order to provide scalable communication.We first consider the deployment of VoIP service in wirelessmulti-hop networks, by using the Session Initiation Protocol (SIP)architecture. Our investigation shows that the centralized SIParchitecture imposes several challenges when deployed in thedecentralized wireless multi-hop environment. We find that VoIPquality metrics are severely degraded as the traffic and number ofmultiple hops to the gateway increase. In the context ofscalability, we further propose four alternative approaches whichavoid current limitations.In the second part of this thesis we tackle the network capacityproblem while providing scalable VoIP service over wirelessmulti-hop networks. The performance evaluation shows the influenceof intra and inter-flow interference in channel utilization, whichdirect impacts the VoIP capacity. In order to avoid the small VoIPpacket overhead, we propose a new adaptive hop-by-hop packetaggregation scheme based on wireless link characteristics. Ourperformance evaluation shows that the proposed scheme can increasethe VoIP capacity by a two-fold gain.The study of peer-to-peer applicability over wireless multi-hopnetworks is another important contribution. A resource lookupapplication is realized through structured P2P overlay. We showthat due to several reasons, such as characteristics of wirelesslinks, multi-hop forwarding operation, and structured P2Pmanagement traffic aggressiveness the performance of traditionalP2P applications is rather low in wireless multi-hop environments.Therefore, we suggested that a trade-off between the P2P lookupefficiency and the P2P management traffic overhead can be achievedwhile maintaining the overlay network consistency in wirelessmulti-hop networks. Wireless Multi-hop Networks Mobile Ad-hoc Networks Wireless Mesh Networks Voice over IP Session Initiation Protocol Peer-to-Peer Overlay Networks Computer Sciences Datavetenskap (datalogi)
98	Performance evaluation of routing protocols for Wireless Mesh Networks Marinis Artelaris, Spyridon January 2016 (has links) Wireless Mesh Networks provide an organisation or a community with the means to extend or create a network independent of infrastructure. However, the network’s dynamic topology along with the fact that devices in the network might be mobile and move randomly, brings tolight various kind of problems on the network, with the most common being the routing. In this report, the problem of routing is examined in terms of throughput, routing overhead, end-to-end delay and packet delivery ratio on two chosen algorithms, namely the Dynamic MANET On-demand (DYMO) and the Better Approach To Mobile Adhoc Networking (B.A.T.M.A.N.). Furthermore, this thesis examines also a Transmission Control Protocol (TCP) connection and compares it against several TCP congestion control mechanisms, two of which, were implemented, namely TCP-Illinois and TCP-FIT, to address the effects that different TCP congestion mechanisms have on an ad-hoc network, when reliable connections are needed. The results show that DYMO is more stable, performs good overall and has the lowest routing overhead, however in a situation with limited mobility or no mobility (as in high mobility they perform poorly) proactive protocols like B.A.T.M.A.N. are worthy protocols, should the extra penalty of routing overhead in the network traffic is not causing any problems. Furthermore, regarding the TCP results, it was observed that TCP congestion algorithms designed specifically for Wireless networks, do offer better performance and should be considered, when designing an ad-hoc network. Wireless Mesh Networks ad-hoc DYMO BATMAN TCP UDP congestion OMNET INET routing performance TCPIllinois TCP-FIT Computer Sciences Datavetenskap (datalogi)
99	Distributed Wireless Networks : Link Scheduling And Application Delay Modelling Sunny, Albert 05 1900 (has links) (PDF) We address several problems that arise in a multihop wireless mesh network. First, we study the problem of joint congestion control, routing and MAC layer scheduling. We formulate the problem as an aggregate utility maximization problem and apply duality theory to decompose the problem into two sub-problems, namely, network layer congestion control and routing problem, and MAC layer scheduling problem. Given the link “prices", the source adjusts its rate based on the cost of the least-cost path to the destination, and sends traffic to the destination along the least-cost path, while link scheduling is carried out based on link prices. Optimal link scheduling for a wireless network is known to be NP-hard. We explore the use of a known centralized greedy heuristic, and develop a distributed algorithm that can schedule independent links based on local information. While the link scheduling algorithm above is for a given set of link prices, the solution to our problem depends on the sequence of price vectors generated by the price update algorithm. This leads us to study convergence issues related to the price update algorithm. Next, we develop a practical protocol which maximizes aggregate utility in a wireless mesh network. We simulate our protocol using Qualnet 4.5 and compare the result with a baseline protocol that uses IEEE 802.11 for link scheduling and AODV for routing. Our proposed protocol requires the durations of slots and subslots to be defined. We develop an approach in which given a single cell wireless mesh network using IEEE 802.11 as a reliable message delivery mechanism, one can find upper and lower bounds on the durations of slots. We employ stochastic ordering to compare distributions of random variables and using some properties of stochastic ordering along with the central limit theorem, we devise a way to compute the above mentioned bounds on the durations. In the second part, we shift our focus to model delays incurred by application packets sent over a WLAN. In this section we model the WLAN as a Random Polling System. The packet arrival process at each node i is assumed to be a stationary and independent increment random process with mean ai and second moment a(2)i . The packet lengths at node i are assumed to be i.i.d random variables Pi with finite mean and second moment. Utilizing available results, we obtain expressions for mean packet delay. Extensive simulations are conducted to verify the analytical results. Wireless Network Optimal Link Distributed Algorithm Contention Graph Wireless Mesh Networks (WMNs) Mesh Networks Distributed Wireless Networks Delay Modelling Communication Engineering
100	Estimação da capacidade de redes sem fio do tipo Mesh / Capacity estimation of wireless mesh networks Muñoz Gallego, David Alfonso 30 November 2005 (has links) Orientador: Paulo Cardieri / Dissertação (mestrado) - Universidade Estadual de Campinas, Faculdade de Engenharia Eletrica e de Computação / Made available in DSpace on 2018-08-07T23:43:16Z (GMT). No. of bitstreams: 1 MunozGallego_DavidAlfonso_M.pdf: 701198 bytes, checksum: b2030ec2292717eca9c4a897402834ab (MD5) Previous issue date: 2005 / Resumo: Este trabalho apresenta uma estimação da capacidade das redes sem fio tipo Mesh. As redes deste tipo têm topologias e padrões de tráfego únicos que as diferenciam das redes sem fio convencionais. Nas redes sem fio tipo mesh os nós atuam como clientes e como servidores e o tráfego e encaminhado para uma ou várias gateways em um modo multi-salto. A estimação da capacidade é baseada em estudos da Camada Física e MAC. Efeitos da propagação do canal são avaliados / Abstract: This work addresses the capacity of wireless mesh networks (WMN). This kind of networks has unique topologies and traffic patterns that differentiate them from conventional wireless networks. In WMN, the nodes act as clients and hosts and the traffic is forwarded to one or more gateways in a multihop fashion. The capacity estimation presented in this work is based on the physical and link layer investigation, using computer simulation / Mestrado / Telecomunicações e Telemática / Mestre em Engenharia Elétrica Radio - Transmissores e transmissão Sistemas de comunicação sem fio Redes não estruturadas Redes sem fio em malha Radio - Transmitters and transmission Wireless communication systems Ad hoc networks Wireless mesh networks

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