Global ETD Search

151	Comparing of Real-Time Properties in Networks Based On IPv6 and IPv4 AMEEN HASHIM, FARHAN, Al Eid, Jamal, Al-Salem, Abdulkhaliq January 2013 (has links) Real time applications over IP network became widely used in different fields; social video conference, online educational lectures, industrial, military, and online robotic medical surgery. Online medical surgery over IP network has experienced rapid growth in the last few years primarily due to advances in technology (e.g., increased bandwidth; new cameras, monitors, and coder/decoders (CODECs)) and changes in the medical care environment (e.g., increased outpatient care, remote surgeries). The purpose of this study was to examine and analyze the impact of IP networks parameters; delay, jitter, throughput, and drop packet on the performance of real-time medical surgery videos sent across different IP networks; native IPv6, native IPv4, 6to4 and 6in4 tunneling transition mechanisms and compare the behavior of video packets over IP networks. The impact of each parameter over IP networks is examined by using different video codecs MPEG-1, MPEG-2, and MPEG-4. This study has been carried out with two main parts; theoretical and practical part, the theoretical part of this study focused on the calculations of various delays in IP networks such as transmission, processing, propagation, and queuing delays for video packet, while the practical part includes; examining of video codecs throughput over IP networks by using jperf tool and examining delay, jitter, and packet drops for different packet sizes by using IDT-G tool and how these parameters can affect quality of received video. The obtained theoretical and practical results were presented in different tables and plotted into different graphs to show the performance of real time video over IP networks. These results confirmed that video codecs MPEG-1, MPEG-2, and MPEG-4 were highly impacted by encapsulation and de-capsulation process except MPEG-4 codec, MPEG-4 was the least impacted by IPv4, IPv6, and IP transition mechanisms concerning throughput and wastage bandwidth. It also indicated that using IPv6-to-4 and IPv6-in-4 tunneling mechanisms caused more bandwidth wastage, high delay, jitter, and packet drop than IPv4 and IPv6. Real time latancy MPEG video codecs Packet dropped video transmission throughput
152	Architecture de coopération de réseaux sans fil Darche, Davy 14 June 2006 (has links) (PDF) Ce travail de thèse aborde les problématiques de coopération de réseaux hétérogènes et de leurs exploitations par un terminal multi-interfaces en situation de mobilité. Le phénomène de convergence des services vers un support unique place le protocole IP comme moyen de communication universel pour le transport de l'information. Cependant, le modèle TCP/IP actuel ne permet pas d'exploiter simultanément, et efficacement, les différentes connexions radio (UMTS, 802.11, DVB) potentiellement disponibles auprès d'un terminal.<br />Nous avons réalisé un état de l'art, mettant en exergue les insuffisances des solutions actuelles, et nous permettant de définir les modes de coopération de<br />réseaux. Nous proposons ici une nouvelle architecture protocolaire reposant sur les protocoles IPv6 et SCTP, et intégrant une entité de gestion des différents réseaux afin d'obtenir une coopération de réseaux optimisée pour un service donné. A travers une expérimentation et diverses simulations, nous avons pu évaluer, par partie, les performances du modèle proposé. Coopération de réseaux convergence FullIP IPv6 SCTP multi-interfaces mobilité gestion d'interfaces réseaux hétérogènes
153	Utilisation d'identifiants cryptographiques pour la sécurisation IPv6 Combes, Jean-Michel 28 September 2012 (has links) (PDF) IPv6, protocole succédant à IPv4, est en cours de déploiement dans l'Internet. Il repose fortement sur le mécanisme Neighbor Discovery Protocol (NDP). Celui-ci permet non seulement à deux nœuds IPv6 de pouvoir communiquer, à l'instar du mécanisme Address Resolution Protocol (ARP) en IPv4, mais il apporte aussi de nouvelles fonctionnalités, telles que l'autoconfiguration d'adresse IPv6. Aussi, sa sécurisation pour le bon fonctionnement de l'Internet en IPv6 est critique. Son mécanisme de sécurité standardisée à l'Internet Engineering Task Force (IETF) se nomme Secure Neighbor Discovery (SEND). Il s'appuie à la fois sur l'utilisation d'identifiants cryptographiques, adresses IPv6 appelées Cryptographically Generated Addresses (CGA) et qui sont générées à partir d'une paire de clés publique/privée, et de certificats électroniques X.509. L'objet de cette thèse est l'étude de ces identifiants cryptographiques, les adresses CGA, ainsi que le mécanisme SEND les employant, et leurs réutilisations potentielles pour la sécurisation IPv6. Dans une première partie de cette thèse, tout d'abord, nous posons l'état de l'art. Dans une deuxième partie de cette thèse, nous nous intéressons à la fiabilité du principal mécanisme connu employant les adresses CGA, le mécanisme SEND. Dans une troisième et dernière partie de cette thèse, nous présentons des utilisations des identifiants cryptographiques pour la sécurisation IPv6 [INFO:INFO_OH] Computer Science/Other IPv6 Sécurité Cryptographie CGA IBC NDP DNS
154	Estudo e classificação de propostas e protocolos para provimento de mobilidade sobre IPv6 Loureiro, Cesar Augusto Hass January 2012 (has links) A iminente implantação do IPv6, pode ser uma solução para o crescente uso de dispositivos móveis, para ensejar a mobilidade e para solucionar problemas derivados do esgotamento de endereços IPv4. Contudo, para o provimento de mobilidade é necessário garantir conectividade ao usuário, permitindo uma utilização continuada de seus dispositivos quando em movimento, sem que ocorra a perda de conexão, de forma segura e transparente. Isto não é possível com a arquitetura TCP/IP atualmente implementada nas redes que estão operacionais, mesmo que utilizem o protocolo IPv6. Neste sentido, este trabalho visa estudar as propostas mais expressivas no provimento de mobilidade sobre IPv6, com vistas a evidenciar suas características e funcionalidades. Apresenta como resultado, uma análise desses protocolos, em especial no que tange ao tempo de troca de rede (handover) e facilidade de implementação. / The imminent deployment of IPv6, may be a solution to the growing use of mobile devices, to bring mobility and to solve problems arising from the exhaustion of IPv4 addresses. However, to provide mobility is necessary ensure connectivity for the user, allowing continued use of their devices while on the move, without loss of connection, securely and transparently. This is not possible with the TCP/IP architecture currently deployed in networks that are operating, even if used the IPv6 protocol. Thus, this work aims to study the most significant proposals in the provision of mobile IPv6, in order to contrast their features and functionalities. Presents as result, an analysis of these protocols, especially with respect to time network exchange (handover) and ease of implementation. Redes : Computadores Protocolos : Redes : Computadores Protocolos : Comunicacao : Dados FMIPv6 IPv6 HIP HMIPv6 LISP MIPv6 Mobility PMIPv6 SHIM6
155	Estudo e classificação de propostas e protocolos para provimento de mobilidade sobre IPv6 Loureiro, Cesar Augusto Hass January 2012 (has links) A iminente implantação do IPv6, pode ser uma solução para o crescente uso de dispositivos móveis, para ensejar a mobilidade e para solucionar problemas derivados do esgotamento de endereços IPv4. Contudo, para o provimento de mobilidade é necessário garantir conectividade ao usuário, permitindo uma utilização continuada de seus dispositivos quando em movimento, sem que ocorra a perda de conexão, de forma segura e transparente. Isto não é possível com a arquitetura TCP/IP atualmente implementada nas redes que estão operacionais, mesmo que utilizem o protocolo IPv6. Neste sentido, este trabalho visa estudar as propostas mais expressivas no provimento de mobilidade sobre IPv6, com vistas a evidenciar suas características e funcionalidades. Apresenta como resultado, uma análise desses protocolos, em especial no que tange ao tempo de troca de rede (handover) e facilidade de implementação. / The imminent deployment of IPv6, may be a solution to the growing use of mobile devices, to bring mobility and to solve problems arising from the exhaustion of IPv4 addresses. However, to provide mobility is necessary ensure connectivity for the user, allowing continued use of their devices while on the move, without loss of connection, securely and transparently. This is not possible with the TCP/IP architecture currently deployed in networks that are operating, even if used the IPv6 protocol. Thus, this work aims to study the most significant proposals in the provision of mobile IPv6, in order to contrast their features and functionalities. Presents as result, an analysis of these protocols, especially with respect to time network exchange (handover) and ease of implementation. Redes : Computadores Protocolos : Redes : Computadores Protocolos : Comunicacao : Dados FMIPv6 IPv6 HIP HMIPv6 LISP MIPv6 Mobility PMIPv6 SHIM6
156	Performance comparison of multihoming and mobility protocols in IPv6 heterogeneous network environment Mugga, Charles, Sun, Dong January 2013 (has links) Multihoming and mobility protocols enable computing devices to stay always best connected (ABC) to the Internet in the heterogeneous wireless environment. The ABC concept affords users the ability to choose the best available access networks and devices that best suit their needs, at any given point in time. With the emergence of multi-interfaced terminals, a mobile node may connect to different access networks simultaneously through multiple interfaces. This is called multihoming, and it allows a user to enjoy the best access for each application as well as other benefits such as fault tolerance, ubiquitous access and load balancing. Also, while the mobile node is moving from one wireless network to another, mobility management is important in keeping the node’s communication active during handover events. Therefore, the heterogeneous wireless environment requires the associated management of both multihoming and mobility since the mobile hosts are mobile and multihomed at the same time. Consequently, the purpose of our research is to compare the prevailing multihoming and mobility management protocols and corresponding implementations in the IPv6 heterogeneous wireless environment, and to identify the suitable protocol framework that supports both multihoming and mobility. The research started out with the study of the prominent host-based multihoming and mobility management protocols and solutions in IPv6. It then proceeded with a comparative qualitative review of the identified multihoming and mobility protocols according to their mechanisms, modes of operation, benefits and drawbacks. From the qualitative review, we identified suitable protocols that showed better performance for management of mobility and/or multihoming. Moreover, this provided a basis for defining the relevant simulation metrics for our comparative quantitative simulation analysis. The quantitative analysis was carried out using simulations on the OMNeT++ software platform, with the objective of comparing the performance of the studied multihoming and mobility protocols. Simulation scenarios were designed for mobility and multihoming cases, implemented and run using pertinent simulation protocol models of OMNeT++. The performance evaluation was investigated in terms of handover latency and rehoming time for mobility and multihoming protocols respectively. The simulation survey focused on the following protocols:Mobile IPv6 (MIPv6), Multiple Care-of Address (MCoA), Host Identity Protocol (HIP) and Stream Control Transmission Protocol (SCTP). Both the qualitative analysis and the results from the simulation study have shown that HIP has the best performance for mobility and multihoming management. Accordingly, our research has identified HIP as the best suitable framework that supports both multihoming and mobility management in IPv6 heterogeneous network environment. In addition, this project has demonstrated that multihomed nodes with multiple addresses experience less impact on real-time communication in case network failures or mobile movements compared to single-homed nodes. / Charles Mugga: +256790506653, Dong Sun: +8615106959570 Multihoming Mobility OMNeT++ Simulation IPv6 Computer Sciences Datavetenskap (datalogi) Telecommunications Telekommunikation Elektroteknik och elektronik
157	Prestandaskillnader mellan IPv4 och IPv6 i Windows 7 och Ubuntu 10.10 Svedlund, Jacob, Carlsson, Anders January 2011 (has links) Det nya internetprotokollet, IPv6 är annorlunda uppbyggt och har större header jämfört med dess föregångare IPv4. Denna rapport undersöker de två protokollens prestanda, avseende överföringskapacitet, jitter, paketförlust och CPU-belastning i operativsystemen Windows 7 och Ubuntu 10.10. Undersökningen genomfördes med hjälp av experiment och mätningar för att visa vilket protokoll och operativsystem som har bäst prestanda. Mätverktyget som användes är Iperf. Resultatet visar att det äldre protokollet presterar lite bättre än dess ersättare vid flertalet mätningar, såsom överföringskapacitet och paketförlust. Resultatet visar även att Windows fick en högre CPU-belastning än Ubuntu vid flertalet tillfällen. / The new internet protocol, IPv6 is differently structured and has a larger header compared to its predecessor, IPv4. This report examines the two protocols performance, in regard of transfer, jitter, packet loss and CPU-load on the two operating systems, Windows 7 and Ubuntu 10:10. The survey was conducted by means of experiments and measurements to show which protocol and operating system that accomplishes the best performance. The measurement tool used in the experiments was Iperf. The result shows that the earlier protocol, IPv4, performs slightly better than its replacement in most measurements, such as transmission capacity and packet loss. The results also shows that Windows 7 has a higher CPU-load than Ubuntu on several occasions in the experiments. Prestandaskillnader IPv4 IPv6 Internetprotokoll Kommunika-tionsprotokoll Prestanda Windows 7 Ubuntu 10.10 Överföringskapacitet Jitter Paketförlust Computer Sciences Datavetenskap (datalogi)
158	Návrh implementace a síťové bezpečnosti protokolu IPv6 v organizaci / Implementation and Security of IPv6 Protocol in the Company Hensl, Jaroslav January 2019 (has links) This Master's thesis is focused on the IPv6 protocol implementation in a business environment. The thesis theoretically describes parts of the protocol which are then used in a real environment with respect to maximal compatibility and security. The thesis deals with hardware components, router configuration on FreeBSD OS, and switch configuration with RouterOS. The thesis also proposes how to monitor the network.
159	Návrh nových laboratorních úloh pro prostředí GNS3 / Design of new laboratory exercises for GNS3 environment Barniak, Martin January 2015 (has links) Diploma thesis deals with four laboratory tasks in simulation environment GNS3. Designed tasks are primarily focused on comparison of IPv4 and IPv6 protocols. In the first task the subject is concerned about OSPFv2 and OSPFv3 routing protocols. Next themes are transit techniques like NAT-PT and tunneling like GRE and 6to4. The second task is focused on configuration of routing protocols like EIGRP and EIGRPv6. Next sections are concerned about DHCP and ICMP protocols within IPv4 and IPv6 protocol suits. The third task is primarily focused on security relations of protocol suite IPv6. It contains OSPFv3 authentication, access lists and Cisco stateful IOS firewall. Content of the fourth task is protocol MPLS. First part of this task is concerned about basic configuration of this protocol and second part is focused on MPLS within IPv6 environment. All tasks contain test questions and individual part task.
160	Server pro automatickou konfiguraci IPv6 tunelu / Server for Automatic IPv6 Tunnel Connectivity Drahoš, Vojtěch January 2011 (has links) One of the major problems of modern Internet is the upcoming depletion of addressing space in IPv4 protocol. This master thesis focuses on the study of network protocol IPv6, the possibilities of expanding this protocol in the Internet using the appropriate tunelling method and ways of tunnel management, especially the TIC protocol. Major goal of this work is using knowledge of protocols in a design and implementation of the server part of tunnel broker system, which uses mentioned tunneling method and is compatible with the open source client AICCU. Second part of this work deals with testing and pilot deployment of this system. Main benefit consists in creation an open source tunel broker system. Real deployment of this system is particularly advantage for Czech users as a low latency tunnel IPv6 Internet.

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