Relevant bibliographies by topics / Mobile IPv6

Academic literature on the topic 'Mobile IPv6'

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Published: 4 June 2021
Last updated: 1 February 2022

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Journal articles on the topic "Mobile IPv6"

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Xiang, Zheng, and Zheng Ming Ma. "Research on Mobility Management Based on MIP Table in Mixed IPv4/v6 Networks." Applied Mechanics and Materials 347-350 (August 2013): 2038–42. http://dx.doi.org/10.4028/www.scientific.net/amm.347-350.2038.

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IETF has specified Mobile IPv4 and Mobile IPv6 in RFC3344 and RFC3775 respectively, but not yet discussed Mobile IPv4/v6 in any published RFC. This paper proposes a scheme to solve one of Mobile IPv4/v6 problems which Home Agent (HA) locates in IPv6 network, and Correspondent Node (CN) locates in IPv4 network, while Mobile Node (MN) moves within IPv4 network. In the solution, a gateway called Mobile IPv4/v6 translation gateway (MIPv4/v6-TG) is introduced to bridge between IPv4 network and IPv6 network, which is made up of a traditional NAT-PT gateway and a Mobile IP application level gateway (MIP-ALG) built upon the NAT-PT gateway. MIP-ALG maintains a MIP table, a data structure, which is formed by entries. We use the MIP table to realize the communication between the IPv4 entities and the IPv6 entities. The creation, usage and update processes of MIP table are described in this paper. And it can work compatibly with RFC3344 and RFC3775.
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Tie, Ling, and Di He. "Security Analysis of Proxy Mobile IPv6 Authentication Protocol with IPv4 Support." Advanced Materials Research 433-440 (January 2012): 3683–87. http://dx.doi.org/10.4028/www.scientific.net/amr.433-440.3683.

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Proxy mobile ipv6 protocol is a mandatory protocol to support inter-working among heterogeneous mobile broadband networks. In order to support compatibility to IPv4 network, a mobility infrastructure in the proxy mobile ipv6 that provide ipv4 extension is presented in this article. An authentication protocol based on authentication option is proposed to protect this proxy mobile IPv6 protocol with IPv4 support. A SVO formal Analysis method is used to prove the security of this protocol.
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Fakih, Gulam, and Angga Setiyadi. "IMPLEMENTASI IPv6 DENGAN METODE MIGRASI NAT64 DAN VPLS UNTUK MENDUKUNG IPv6 MOBILE DI SEBUAH INSTITUSI PENDIDIKAN." Komputa : Jurnal Ilmiah Komputer dan Informatika 8, no. 2 (October 21, 2019): 86–93. http://dx.doi.org/10.34010/komputa.v8i2.3054.

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Dewasa ini, sebuah institusi pendidikan pada umumnya membutuhkan akses internet untuk mempermudah dan mendukung proses belajar mengajar. Sehingga diharapkan para dosen, mahasiswa dan pegawai dapat lebih mudah mencari informasi. ABC merupakan sebuah institusi pendidikan di kota Bandung yang memiliki jumlah civitas yang cukup banyak dan kebutuhan akses internet cukup tinggi, sehingga alokasi IPv4 sudah habis. Maka diperlukan solusi yang cepat untuk mengatasi masalah tersebut. IPv6 adalah solusi untuk keterbatasan dan habisnya IPv4 karena mempunyai jumlah 2^128 bit. Berdasarkan hal tersebut maka maka implementasi IPv6 adalah solusinya untuk permasalahan tersebut. Dalam proses migrasi ke IPv6 agar lebih mudah pada pengguna maka menggunakan metode migrasi NAT64 sehingga pengguna IPv6 tetap berkomunikasi dengan IPv4. IPv6 mobile juga disediakan agar pengguna IPv6 tetap mendapatkan alamat yang sama walaupun berpindah tempat di dalam kampus dan hubungan dengan aplikasi tidak terputus. Dalam mendukung jaringan mobile infrastruktur utama dirubah menjadi Multi Protocol Label Switching (MPLS) dengan VPLS sebagai VPN pada layer 2. Dari hasil implementasi bahwa performa jaringan pada IPv6 seperti throughput, latency tidak ada penururan dibandingkan dengan IPv4 dan aplikasi yang dapat dibuka pada IPv4 juga dapat dibuka oleh pengguna IPv6. Kata kunci : IPv6, Migrasi, Network Address Translation 64(NAT64), IPv6 Mobile, VPLS
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Qin, Gang, Can Chen, and Bao Ping Yan. "Study on IPv6 Capabilities of Mobile Devices." Applied Mechanics and Materials 380-384 (August 2013): 2209–15. http://dx.doi.org/10.4028/www.scientific.net/amm.380-384.2209.

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With the rapid development of Internet, the current Internet Protocol IPv4 cannot meet the new requirements. Compared with IPv4, IPv6 has more advantages. Fruitful results have been borne in aspects of IPv6 protocol study and network construction in China. On the other hand, application and popularization of IPv6 is far from sufficient. In recent years, mobile devices have popularized very rapidly. More and more people use mobile devices, including smartphones and tablets, to surf online everywhere. If such a gigantic amount of mobile devices can access network with IPv6, it will be very important for application of IPv6. In this paper, we first analyze the market of mobile devices to determine the devices to be tested. Then we introduce how to construct test environment and test cases. After that, we illustrate the test procedure. Then we summarize how the mainstream mobile devices support IPv6. At the end of this paper, we look forward the future work.
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Zhen, Zhen, and Srinivas Sampalli. "Mobile IP Address Efficiency." Journal of Communications Software and Systems 2, no. 1 (April 6, 2017): 30. http://dx.doi.org/10.24138/jcomss.v2i1.303.

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In future wireless networks, Mobile IP will be widely deployed as a general mobility protocol. Currently, in theprotocol each mobile node (MN) should have one public home address to identify itself when it is away from home. Unlike the stationary host, the MN cannot simply use private addresses when NAT (Network Address Translation) is enabled. How to assign public addresses among mobile nodes is important to save the already limited IPv4 addresses. Even though Mobile IPv6 can provide a large address space, when communicating with IPv4 based hosts, the MN still needs to use one public IPv4 address. Protocol translation can map between IPv6 and IPv4 addresses;however, it is a NAT-based approach and breaks end-to-endcommunications. From a new perspective, we propose anaddress-sharing mechanism that allows a large number of MNs to share only one IPv4 public address while avoiding most of the drawbacks of NAT.
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Singh, Sukhwinder. "Hybrid Packet Marking IP Traceback Technique over IPv4 IPv6 and Mobile IPv6." International Journal of Engineering Trends and Technology 46, no. 5 (April 25, 2017): 262–69. http://dx.doi.org/10.14445/22315381/ijett-v46p245.

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Ahmadi, Seyedeh Masoumeh. "Analysis towards Mobile IPV4 and Mobile IPV6 in Computer Networks." International Journal of Intelligent Systems and Applications 4, no. 4 (April 19, 2012): 33–39. http://dx.doi.org/10.5815/ijisa.2012.04.05.

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Kempf, James, Jari Arkko, and Pekka Nikander. "Mobile IPv6 Security." Wireless Personal Communications 29, no. 3/4 (June 2004): 389–414. http://dx.doi.org/10.1023/b:wire.0000047072.64159.35.

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Pérez-Costa, Xavier, Marc Torrent-Moreno, and Hannes Hartenstein. "A performance comparison of Mobile IPv6, Hierarchical Mobile IPv6, fast handovers for Mobile IPv6 and their combination." ACM SIGMOBILE Mobile Computing and Communications Review 7, no. 4 (October 2003): 5–19. http://dx.doi.org/10.1145/965732.965736.

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Gao, Jingwen, and Qin Zhao. "6in4 Tunnel Based IPv6 Transition Solution for IPv4 Mobile Terminals." International Journal of Computer and Communication Engineering 3, no. 6 (2014): 429–33. http://dx.doi.org/10.7763/ijcce.2014.v3.363.

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Dissertations / Theses on the topic "Mobile IPv6"

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Darwich, Jamal. "Comparative study of Mobile IPv4 and Mobile IPv6." Thesis, Högskolan Väst, Institutionen för ekonomi och it, 2011. http://urn.kb.se/resolve?urn=urn:nbn:se:hv:diva-3437.

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This thesis has compared the Mobile IPv4 and Mobile IPv6 to find out which of them performs better when it comes to send datagram from the correspondent node to the mobile node. The tests that were made to measure performance were latency, TCP/UDP throughput, loss and delay, as well as time measurement for connectivity loss for the mobile node while roaming. The tests were done using Cisco equipments and Microsoft Windows 7 Professional OS. Due to the hardware and software used, the route of datagram was the same in both scenarios since Cisco routers and Microsoft Windows 7 OS does not support route optimization for Mobile IPv6. The results showed that Mobile IPv4 performed better in all the tests done.
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Kintu, Zephernia. "Migrating to IPv6." Thesis, KTH, Kommunikationssystem, CoS, 2012. http://urn.kb.se/resolve?urn=urn:nbn:se:kth:diva-96355.

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Today hundreds of millions of users are interconnected by communication channels allowing them to communicate and to share information. These users and the devices that interconnect them are what constitute the Internet. The Internet is a network of networks with a myriad of computer devices, including smartphones, game consoles (handheld/stationary), IP televisions, tablet computers, laptop computers, desktop computers, palmtop computers, etc. This network of computers flourishes because of careful planning and maintenance by Internet Service Providers (ISPs), backbone network operators, and others. An additional factor that enables the Internet to operate is the four logical layers of abstraction in the TCP/IP protocol stack. One of these layers is the layer responsible for the transfer of datagrams/packets from one host to another. This layer is known as the Internet Protocol (IP) layer. However, as originally conceived a 32 bit address was thought to be more than enough. The space of IP addresses was distributed among different regions rather disproportionately, driven largely by the numbers of addresses that were requested (ordered in time). Today after a series of inventions in the field (such as the world wide web) and a rapid growth in the number of devices that wish to connect to the Internet the available unassigned address space has largely been depleted. Regions with large populations, but with few assigned blocks of IP addresses have begun to exhaust all their assigned addresses, while other regions face the same fate in a few months. The need for a larger address space was predicted years ago and the next generation addressing scheme was devised as part of the development of Internet Protocol Version 6 (IPv6). Countries such as China and India had few IPv4 addresses and they have been forced to transition to IPv6 rather quickly. Today a significant number of the users in these countries are unable to communicate over IPv4 networks. The purpose of this thesis project is to discuss the transition to IPv6 and the transition to this new addressing scheme. IPv6 provides a much larger address space, along with a number of additional improvements in comparison to the previous version of IP (i.e., IPv4). Despite the advantages of adopting IPv6, the incentive to transition is low amongst well established businesses, especially those in regions that received a considerable number of IPv4 addresses initially. Instead different techniques have been employed in these places to mitigate the problem of IPv4 address exhaustion. It is also probable that this reluctance is a way to keep competing businesses out of the market for a while longer. This thesis aims to facilitate the transition from IPv4 to IPv6.
Miljontals användare är idag sammankopplade genom kommunikationskanaler som tillåter utbyte av information. Datornätet Internet utgörs av dessa användare och de enheter som sammanbinder dem. Internet är ett nätverk av nätverk med en myriad av olika datorutrustning såsom; spelkonsoler, smartphones, bärbara datorer, stationära datorer, handdatorer, även IPTV, kylskåp, tvättmaskiner, osv. Detta nätverk blomstrar på grund av noggrann planering och underhåll av internetleverantörer, nätoperatörer och andra. En ytterligare faktor som gör det möjligt för Internet att fungera är de fyra logiska skikt av abstaktion i TCP/IP-protokollstacken, en standard för datakommunikation. Ett av dessa skikt ansvarar för överföring av datapaket från en ändpunkt till en annan. Detta skikt är kallad Internet Protocol(IP) layer. Ursprungligen ansågs en 32-bitars adress vara mer än tillräcklig. Dessa IP-adresser delades ut till olika regioner rätt så oproportionerligt till stor del beroende på antalet adresser en region begärt. Idag efter en rad uppfinningar inom området(såsom webben/world wide web) och en snabb tillväxt i antal enheter som önskar ansluta sig till Internet är det tillgängliga adressutrymmet i stort sett slut. Regioner med stor befolkning men med få tilldelade block av IP-addresser har börjat göra slut på sina tilldelade adresser medan andra regioner står inför samma öde inom några månader. Behovet av ett större adressrymd sågs flera år sedan och nästa generations addresseringsschema utformades som en del av utveckligen, Internet Protocol version 6(IPv6). Länder som Kina och Indien hade ett fåtal IPv4-adresser och de har varit tvungna att övergå till IPv6 ganska snabbt. Idag kan inte ett stort antal användare i dessa länder kommunicera över IPv4-nätverk. Syftet med detta examensarbete är att diskutera övergången till IPv6 samt övergången till detta nya adresseringsschema. IPv6 ger en mycket större adressrymd samt en rad ytterligare förbättringar i jämförelse med den tidigare versionen av IP(dvs IPv4). Trots fördelarna med att övergå till IPv6 är viljan låg bland väletablerade företag, särskilt i regioner som mottagit ett stort antal IPv4-adresser från början. Dessa regioner tillämpar istället olika tekniker för att bromsa utmattningen av IPv4-adresser. Det är också troligt att denna motvija är ett sätt att hålla konkurrerande företag från marknaden ett tag till. Detta examensarbete syftar till att underlätta övergången från IPv4 till IPv6.
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Gungor, Vehbi Cagri. "Handover Algorithms For Mobile Ipv6." Master's thesis, METU, 2003. http://etd.lib.metu.edu.tr/upload/2/1209329/index.pdf.

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With recent technological advances in wireless communication networks, the need for an efficient architecture for IP mobility is becoming more apparent. Enabling IP mobility architecture is a significant issue for making use of various portable devices appearing on the Internet. Mobile IP, the current standard for IP based mobility management, is capable of providing wireless Internet access to mobile users. The most important feature of Mobile IP is its ability to support the changing point of attachment of the mobile user by an algorithm known as handover. A handover algorithm is needed to maintain connectivity to the Internet whenever the mobile users move from one subnet to another, while simultaneously providing minimum disruption to ongoing sessions. This thesis gives an overview of Mobile IP, its open issues, some of the subsequent enhancements and extensions related to the handover management problem of the mobile user. Description and evaluation of various handover algorithms for Mobile IP which have been proposed to reduce packet loss and delay during handover constitute the core of the thesis. In this thesis, a comparative performance evaluation of the proposed protocols and the combination of them is also presented through simulations.
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Valadon, Guillaume. "Mobile IPv6 : architectures et protocoles." Paris 6, 2008. http://www.theses.fr/2008PA066257.

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Cette thèse vise à améliorer les performances de Mobile IPv6 en contrôlant les limitations induites par l'utilisation du routeur gérant la mobilité: le home agent. Nous proposons deux approches compatibles avec l'infrastructure actuelle de l'Internet permettant de gérer la mobilité de façon transparente pour le réseau et les périphériques fixes. Tout d'abord, nous décrivons une nouvelle architecture de gestion de la mobilité appelée Home Agent Migration qui permet d'utiliser plusieurs home agents. Lors d'un déploiement, nous montrons qu'il est possible d'obtenir des performances comparables à celles de communications sans Mobile IPv6. Ensuite, nous définissons les propriétés des emplacements des home agents en terme de théorie des graphes. Nous quantifions alors l'impact du protocole Mobile IPv6 sur les communications. Enfin, nous proposons un nouvel algorithme permettant de traiter les déploiements de Mobile IPv6 et de Home Agent Migration dans des graphes modélisant des réseaux.
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Klügl, Richard. "Analýza handoveru v Mobile IPv6." Master's thesis, Vysoké učení technické v Brně. Fakulta elektrotechniky a komunikačních technologií, 2010. http://www.nusl.cz/ntk/nusl-218562.

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This master’s thesis is focused on IP mobility support for mobile users and their devices in IPv6-based wireless networks. Then the Mobile IPv6 (MIPv6) protocol was proposed for this purpose and that is also the main objective of the thesis. This consists of several basic sections and is organized as follows: The first one deals with the overview of the function of Mobile IP, which enables the mobility of nodes around the Internet, without a change of their original IP address. Moreover there are introduced the primary differences between MIPv6 and its previous version – i.e., MIPv4, proposed for IPv4-based environment. The second chapter of the master’s thesis thereafter describes detailed information about all the most important mechanisms and features of Mobile IPv6 and this way tries to explain principles of its functioning. Further the thesis analyses some of proposed MIPv6 extensions – i.e., Hierarchical Mobile IPv6 (HMIPv6), Mobile IPv6 Fast Handover (FMIPv6) a Fast Handover for HMIPv6 (F-HMIPv6) protocols, and mainly aim at signaling process during the handover of a mobile node. In the last main section of the master’s thesis an analytical method to evaluate the performance of IPv6-based mobility management protocols was proposed. Subsequently, this method is applied on the protocols which were mentioned above and are studied the effects of various network parameters on the performance of these protocols.
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Žáček, Martin. "Mobile IPv6 v prostředí OPNET Modeler." Master's thesis, Vysoké učení technické v Brně. Fakulta elektrotechniky a komunikačních technologií, 2010. http://www.nusl.cz/ntk/nusl-218278.

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Master’s thesis includes knowledges about mobility support in IPv4 networks and studies abilities for mobility support in IPv6 networks. Describes protocols for mobility support, their functions and topologies like MIPv6 (RFC 3775), FMIPv6 (RFC 5568), HMIPv6 (RFC 5380) and F-HMIPv6. The thesis contains a design of the simulation MIPv6 in the OPNET Modeler program and the measured results are explained. There are analysis of source code for mobility support in MIPv6 too, which were used for design a new protocol according to FMIPv6 in the OPNET. The following parts of the proposal have been successfully resolved. The link-layer events detection, which triggers FMIPv6 protocol and implementation of two new types of messages, RtSolPr and PrRtAdv. Knowledges from this thesis could be used for next development of FMIPv6 in the OPNET. But could be used for generaly development new protocols working at network-layer too.
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Abad, Camarero Daniel. "Performance analysis of IPv4 / IPv6 protocols over the third generation mobile network." Thesis, KTH, Kommunikationsnät, 2014. http://urn.kb.se/resolve?urn=urn:nbn:se:kth:diva-158986.

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Currently, the IPv4 protocol is heavily used by institutions, companies and individuals, but every day there is a higher number of devices connected to the network such as home appliances, mobile phones or tablets. Each machine or device needs to have its own IP address to communicate with other machines connected to Internet. This implies the need for multiple IP addresses for a single user and the current protocol begins to show some deficiencies due to IPv4 address space exhaustion. Therefore, for several years experts have been working on an IP protocol update: the IPv6 128-bit version can address up to about 340 quadrillion system devices concurrently. With IPv6, today, every person on the planet could have millions of devices simultaneously connected to the Internet. The choice of the IP protocol version affects the performance of the UMTS mobile network and the browsers as well. The aim of the project is to measure how the IPv6 protocol performs compared to the previous IPv4 protocol. It is expected that the IPv6 protocol generates a smaller amount of signalling and less time is required to fully load a web page. We have analysed some KPIs (IP data, signalling, web load time and battery) in lab environment using Smartphones, to observe the behaviour of both, the network and the device.  The main conclusion of the thesis is that IPv6 really behaves as expected and generates savings in signalling, although the IP data generated is larger due to the size of the headers. However, there is still much work as only the most important webpages and the applications with a high level of market penetration operate well over the IPv6 protocol.
Cada día existe un mayor número de dispositivos conectados a la red, tales como electrodomésticos, teléfonos móviles inteligentes o tabletas, por lo que la red debe evolucionar constantemente y ser capaz de proveer servicio a todos los usuarios. Cada equipo necesita tener su propia dirección IP para comunicarse con otras máquinas conectadas a Internet, por lo que es necesario tener un gran número de direcciones IP y la versión del protocolo actual comienza a mostrar algunas deficiencias (debido fundamentalmente al agotamiento del espacio de direccionamiento IPv4 y algunas funciones de seguridad que han quedado obsoletas). Desde hace varios años, los expertos están trabajando en una actualización del protocolo IP: la versión seis (llamada IPv6) que utiliza 128 bits para el direccionamiento pudiendo administrar simultáneamente hasta unos 340 trillones de dispositivos al mismo tiempo. La elección de la versión del protocolo IP afecta al comportamiento de la red móvil, ya que los expertos todavía están optimizando y realizando cambios en la arquitectura de red y en los dispositivos para soportar el protocolo IPv6. El objetivo del proyecto consiste en comparar y evaluar las diferentes versiones del protocolo IP utilizado, en gran medida, para acceder a la red de internet. La principal conclusión del proyecto es que IPv6 realmente se comporta como se espera y genera ahorros en la señalización, aunque los datos IP generados son mayores. Sin embargo, aún queda mucho trabajo por hacer, ya que sólo las páginas más importantes y las aplicaciones más utilizadas por los usuarios funcionan bien sobre el protocolo IPv6.
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Manepalli, Sarika. "Enhanced handoff algorithm for the co-existence of mobile IPV4 and IPV6 networks." Thesis, Wichita State University, 2009. http://hdl.handle.net/10057/2423.

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As wireless technology has improved, the demand for constant internet connectivity increased. With the invention of Mobile IP, users are still more interested to have connection to the internet while moving from one network to another. During the mobility, the mobile host moves from one network to another, undergoes the handoff process, and registers with the new network. Due to the scarcity of IPv4 addresses and other limitations, new Internet Protocol version 6 (IPv6) has evolved. In the real world, planning is being done to deploy IPv6 along with the IPv4 network. The IPv6 node should understand IPv4 addressing and its features while communicating with it. When considering mobility in both IPv4 and IPv6 networks together, it is a bit complicated where either the mobile host or any other entity in the network should understand both IPv4 and IPv6 networks. In this thesis, research was centralized in the scenario where both internet protocol versions IPv4 and IPv6 are active and mobility is introduced between them. The research deals with the handoff process and registration of the mobile node with the agent in the new network. The author proposed a new handoff algorithm with the basic security involved in the process which can be used as model before planning to introduce mobility between IPv4 and IPv6 protocols. The significance of the algorithm is to reduce the handoff latency by enhancing the functionality of the Tunnel End Point (TEP); this in turn reduces the tunneling of the data twice. The research, analysis is done on the complete handoff process by varying different parameters involved in the process. An analytical model is proposed to support the algorithm. The effects of the parameters are studied. The results of the proposed analytical model were studied in comparison with the traditional schemes.
Thesis (M.S.)--Wichita State University, College of Engineering, Dept. of Electrical and Computer Engineering
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Nunes, Fábio Pessoa. "Arquitetura de mobilidade IPv6 entre cidades digitais = Mobile IPv6 architecture between digital cities." [s.n.], 2012. http://repositorio.unicamp.br/jspui/handle/REPOSIP/259452.

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Orientador: Leonardo de Souza Mendes
Dissertação (mestrado) - Universidade Estadual de Campinas, Faculdade de Engenharia Elétrica e de Computação
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Mestrado
Telecomunicações e Telemática
Mestre em Engenharia Elétrica
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Jiang, Sheng. "Make Grid systems IPv6-enabled and provide mobility support in Grid systems based on mobile IPv6." Thesis, University College London (University of London), 2005. http://discovery.ucl.ac.uk/1444796/.

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During the last few years, systems have emerged to perform large-scale computation and data storage over IP-enabled data communication networks using Grid middleware technology. Grid middleware integrates the computational resources, which may be distributed geographically, over networks. These Grid implementations are currently supported only over IPv4. The next generation Internet Protocol - IPv6 - is replacing IPv4 with a number of improvements. Since IPv6 is expected to become the core protocol for next generation networks, Grid computing systems should be able to continue to work as the lower-layer network protocols migrate to IPv6. Therefore, we studied in depth what needed to be done to integrate IPv6 functionality into Grid middleware here we include both Grid middleware itself and its interface to the underlying networking environment. We have also given consideration to how a Grid implementation can be made to work in heterogeneous IPv4/IPv6 networks. We have used the Globus Toolkit as our working example of a Grid implementation. However, the mechanisms and approaches for integrating IPv6 into the Globus Toolkit are generic. It should cover the integration of IPv6 into most other Grid implementations and even to other IP-based applications. Another aspect of my work relates to the provision of mobility support for Grid middleware, since a lot of Grid resources and users have to be mobile in the wide-area distributed computing environment. Amongst the many mobility solutions, Mobile IP we find the most suitable it has two main advantages in its provision of mobility support in the lower-layer network infrastructure. Firstly, it separates the mobility operations from upper-layer applications, here the Grid middleware. No resultant changes are required in either the applications or the Grid implementations. Secondly, Grid hosts can maintain the identities, so that they can work continuously. The use of Mobile IPv6 rather than Mobile IPv4 is more efficient. This shows that our effort in making Grid middleware IPv6-enabled has brought advantages into the Grid computations. The success of running Grid middleware over Mobile IPv6 builds up only the lower infrastructure for the mobile-enabled Grid by solving the transparent access and handover issues in mobility scenarios. The Grid needs to be modified and improved further in order to work effectively in the mobile environment. The study indicated the major Grid-relevant issue in mobility scenarios is that the status of the Grid changes frequently. Therefore, we introduce a dynamic Grid resource discovery mechanism. Then, we categorise these important characters into four aspects. They are monitored and parameterised dynamically allowing Grid middleware to assign Grid resources dynamically. Eventually, we provide Grid resource mobility functions. Finally, while we have concentrated on the Grid environment, most of methodology and the generic approach apply equally well to other environments.
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Books on the topic "Mobile IPv6"

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Minoli, Daniel. Mobile video with mobile IPv6. Hoboken, N.J: John Wiley & Sons, Inc., 2012.

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Minoli, Daniel. Mobile Video with Mobile IPv6. Hoboken, NJ, USA: John Wiley & Sons, Inc., 2012. http://dx.doi.org/10.1002/9781118396599.

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Li, Qing. Mobile IPv6: Protocols and implementation. Burlington, MA: Elsevier, 2009.

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1971-, Jinmei Tatuya, and Shima Keiichi 1970-, eds. Mobile IPv6: Protocols and implementation. Burlington, MA: Elsevier, 2009.

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Li, Qing. Mobile IPv6: Protocols and implementation. Burlington, MA: Elsevier, 2009.

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Blanchet, Marc. Migrating to IPv6. New York: John Wiley & Sons, Ltd., 2006.

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Blanchet, Marc. Migrating to IPv6: A practical guide to implementing IPv6 in mobile and fixed networks. Chichester, UK: Wiley, 2005.

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Migrating to IPv6: A practical guide to implementing IPv6 in mobile and fixed networks. Hoboken, NJ: J. Wiley & Sons, 2005.

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Yi, Sŏng-chʻun. IPv6 kiban WiBro idongsŏng kisul mit idong AP sisŭtʻem kaebal =: Development of IPv6-based WiBro mobility technology and mobile AP system. [Seoul]: Chisik Kyŏngjebu, 2008.

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Yi, Sŏng-chʻun. IPv6 kiban WiBro idongsŏng kisul mit idong AP sisŭtʻem kaebal =: Development of IPv6-based WiBro mobility technology and mobile AP system. [Seoul]: Chisik Kyŏngjebu, 2008.

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Book chapters on the topic "Mobile IPv6"

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Gundavelli, Sri. "Proxy Mobile IPv6." In Encyclopedia of Wireless Networks, 1120–28. Cham: Springer International Publishing, 2020. http://dx.doi.org/10.1007/978-3-319-78262-1_14.

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Gundavelli, Sri. "Proxy Mobile IPv6." In Encyclopedia of Wireless Networks, 1–9. Cham: Springer International Publishing, 2018. http://dx.doi.org/10.1007/978-3-319-32903-1_14-1.

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Aura, Tuomas. "Mobile IPv6 Security." In Security Protocols, 215–34. Berlin, Heidelberg: Springer Berlin Heidelberg, 2004. http://dx.doi.org/10.1007/978-3-540-39871-4_18.

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Yi, Myung-Kyu, and Chong-Sun Hwang. "Analytical-Numerical Study of Mobile IPv6 and Hierarchical Mobile IPv6." In Distributed Computing - IWDC 2004, 168–79. Berlin, Heidelberg: Springer Berlin Heidelberg, 2004. http://dx.doi.org/10.1007/978-3-540-30536-1_20.

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Fritsche, Wolfgang. "IPv6 based Mobile Routing." In Converged Networking, 121–32. Boston, MA: Springer US, 2003. http://dx.doi.org/10.1007/978-0-387-35673-0_10.

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Heydari, Vahid. "IP Hopping by Mobile IPv6." In Handbook of Cyber-Development, Cyber-Democracy, and Cyber-Defense, 983–1010. Cham: Springer International Publishing, 2018. http://dx.doi.org/10.1007/978-3-319-09069-6_49.

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Perkins, Charles E. "Recent Developments with Mobile IPv6." In Developing an Infrastructure for Mobile and Wireless Systems, 38. Berlin, Heidelberg: Springer Berlin Heidelberg, 2002. http://dx.doi.org/10.1007/3-540-36257-6_2.

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Heydari, Vahid. "IP Hopping by Mobile IPv6." In Handbook of Cyber-Development, Cyber-Democracy, and Cyber-Defense, 1–28. Cham: Springer International Publishing, 2017. http://dx.doi.org/10.1007/978-3-319-06091-0_49-1.

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Castelluccia, Claude. "Toward a Hierarchical Mobile IPv6." In High Performance Networking, 275–90. Boston, MA: Springer US, 1998. http://dx.doi.org/10.1007/978-0-387-35388-3_16.

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Kong, Ki-Sik, Sung-Ju Roh, and Chong-Sun Hwang. "Signaling Load of Hierarchical Mobile IPv6 Protocol in IPv6 Networks." In Personal Wireless Communications, 440–50. Berlin, Heidelberg: Springer Berlin Heidelberg, 2004. http://dx.doi.org/10.1007/978-3-540-30199-8_37.

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Conference papers on the topic "Mobile IPv6"

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Hyeon, Seung-Il, Youn-Hee Han, Hyo-Beom Lee, and Hyun-young Choi. "Empirical performance evaluation of IETF mobile IPv6 and proxy mobile IPv6." In the International Conference. New York, New York, USA: ACM Press, 2008. http://dx.doi.org/10.1145/1506270.1506356.

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Gvvon, Y., J. Kempf, and A. Yegin. "Scalability and robustness analysis of mobile IPv6, fast mobile IPv6, hierarchical mobile IPv6, and hybrid IPv6 mobility protocols using a large-scale simulation." In 2004 IEEE International Conference on Communications (IEEE Cat. No.04CH37577). IEEE, 2004. http://dx.doi.org/10.1109/icc.2004.1313318.

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Manimozhi, S., and J. Gnana Jayanthi. "IPv6 Mobility Architecture in IPv4 MANET." In 2018 2nd International Conference on I-SMAC (IoT in Social, Mobile, Analytics and Cloud) (I-SMAC). IEEE, 2018. http://dx.doi.org/10.1109/i-smac.2018.8653730.

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Parra, Octavio J. Salcedo, Angela Patricia Rios, and Gustavo Lopez Rubio. "Quality of Service over IPV6 and IPV4." In 2011 7th International Conference on Wireless Communications, Networking and Mobile Computing (WiCOM). IEEE, 2011. http://dx.doi.org/10.1109/wicom.2011.6040165.

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Chen, Yu-Chang, Tai-An Lai, and Bao-Rong Chang. "Broader Hierarchical Mobile IPv6." In Second International Conference on Innovative Computing, Informatio and Control (ICICIC 2007). IEEE, 2007. http://dx.doi.org/10.1109/icicic.2007.205.

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Hung, Tran Cong, Nguyen Ngoc Chan, Nguyen Duc Thang, and Truong Dinh Huy. "Interoperability between Mobile IPv4 and Mobile IPv6 based on MPLS core network." In The 9th International Conference on Advanced Communication Technology. IEEE, 2007. http://dx.doi.org/10.1109/icact.2007.358571.

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Gunasundari, R., and S. Shanmugavel. "Performance Comparison of Mobile IPv4 and Mobile IPv6 protocols in wireless systems." In 2009 First International Communication Systems and Networks and Workshops (COMSNETS). IEEE, 2009. http://dx.doi.org/10.1109/comsnets.2009.4808842.

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Kuntz, Romain, and Jean Lorchat. "Versatile IPv6 mobility deployment with dual stack mobile IPv6." In the 3rd international workshop. New York, New York, USA: ACM Press, 2008. http://dx.doi.org/10.1145/1403007.1403019.

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Liu, Xiaofa, Xinzhou Cao, and Huan Li. "An IPv4-IPv6 Translation Mechanism for IMS Network." In 2008 4th International Conference on Wireless Communications, Networking and Mobile Computing (WiCOM). IEEE, 2008. http://dx.doi.org/10.1109/wicom.2008.987.

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Lee, Jong-Hyouk, Tai-Myoung Chung, and Sri Gundavelli. "A comparative signaling cost analysis of Hierarchical Mobile IPv6 and Proxy Mobile IPv6." In 2008 IEEE 19th International Symposium on Personal, Indoor and Mobile Radio Communications (PIMRC). IEEE, 2008. http://dx.doi.org/10.1109/pimrc.2008.4699416.

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Reports on the topic "Mobile IPv6"

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Wakikawa, R., and S. Gundavelli. IPv4 Support for Proxy Mobile IPv6. RFC Editor, May 2010. http://dx.doi.org/10.17487/rfc5844.

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Leung, K., V. Devarapalli, K. Chowdhury, and B. Patil. Proxy Mobile IPv6. Edited by S. Gundavelli. RFC Editor, August 2008. http://dx.doi.org/10.17487/rfc5213.

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Koodli, R., ed. Mobile IPv6 Fast Handovers. RFC Editor, July 2009. http://dx.doi.org/10.17487/rfc5568.

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Devarapalli, V. Mobile IPv6 Experimental Messages. RFC Editor, December 2007. http://dx.doi.org/10.17487/rfc5096.

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Koodli, R., ed. Mobile IPv6 Fast Handovers. RFC Editor, June 2008. http://dx.doi.org/10.17487/rfc5268.

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Gundavelli, S. Reserved IPv6 Interface Identifier for Proxy Mobile IPv6. RFC Editor, May 2012. http://dx.doi.org/10.17487/rfc6543.

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Zhou, X., J. Korhonen, G. Feige, and R. Koodli. IPv4 Traffic Offload Selector Option for Proxy Mobile IPv6. Edited by S. Gundavelli. RFC Editor, April 2013. http://dx.doi.org/10.17487/rfc6909.

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Patel, A., K. Leung, M. Khalil, H. Akhtar, and K. Chowdhury. Mobile Node Identifier Option for Mobile IPv6 (MIPv6). RFC Editor, November 2005. http://dx.doi.org/10.17487/rfc4283.

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Qiu, Y., and R. Koodli. Mobile IPv6 Location Privacy Solutions. Edited by F. Zhao. RFC Editor, February 2010. http://dx.doi.org/10.17487/rfc5726.

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Devarapalli, V., A. Patel, and K. Leung. Mobile IPv6 Vendor Specific Option. RFC Editor, December 2007. http://dx.doi.org/10.17487/rfc5094.

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