807 research outputs found

    Mobile IP: state of the art report

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    Due to roaming, a mobile device may change its network attachment each time it moves to a new link. This might cause a disruption for the Internet data packets that have to reach the mobile node. Mobile IP is a protocol, developed by the Mobile IP Internet Engineering Task Force (IETF) working group, that is able to inform the network about this change in network attachment such that the Internet data packets will be delivered in a seamless way to the new point of attachment. This document presents current developments and research activities in the Mobile IP area

    Multicast Mobility in Mobile IP Version 6 (MIPv6) : Problem Statement and Brief Survey

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    Mobility Management, Quality of Service, and Security in the Design of Next Generation Wireless Network

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    The next generation wireless network needs to provide seamless roaming among various access technologies in a heterogeneous environment. In allowing users to access any system at anytime and anywhere, the performance of mobility-enabled protocols is important. While Mobile IPv6 is generally used to support macro-mobility, integrating Mobile IPv6 with Session Initiation Protocol (SIP) to support IP traffic will lead to improved mobility performance. Advanced resource management techniques will ensure Quality of Service (QoS) during real-time mobility within the Next Generation Network (NGN) platform. The techniques may use a QoS Manager to allow end-to-end coordination and adaptation of Quality of Service. The function of the QoS Manager also includes dynamic allocation of resources during handover. Heterogeneous networks raise many challenges in security. A security entity can be configured within the QoS Manager to allow authentication and to maintain trust relationships in order to minimize threats during system handover. The next generation network needs to meet the above requirements of mobility, QoS, and security

    Security Enhancement of Route Optimization in Mobile IPv6 Networks

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    Mobile IPv6 is an IP-layer protocol that is designed to provide mobility support.It allows an IPv6 node to arbitrarily change its location in the IPv6 network while maintaining the existing connection by handling the change of addresses at the Internet layer. Route optimization is standard in Mobile IPv6 to eliminate inefficient triangle routing. Several methods were proposed to secure route optimization. Return routability was adopted by Internet Engineering Task Force (IETF) with its security protocol based on RFC 3775. Return routability is an infrastructureless, lightweight procedure that enables a Mobile IPv6 node to request another IPv6 node to check and test the ownership of its permanent address in both home network and current visited network. It authorizes a binding procedure by the use of cryptographically token exchange. However, return routability protocol in route optimization is to protect messages and is not able to detect or prevent an attacker which tampers against data. In this thesis, focus is given on Mobile IPv6 route optimization test-bed with enhanced security in terms of data integrity. The proposed method can be performed on top of the return routability procedure to detect and prevent Man-In-The-Middle attack by using encryption if any attack is detected. This also eliminates the additional delay compared to using encryption from the beginning of a connection. A real-time experimental test-bed has been set up, which is comprised of hardware, software and network analysis tools to monitor the packet flow and content of data packets. The test-bed consists of four computers acting as Mobile Node, Home Agent, Correspondent Node, and Router, respectively. To ensure the accuracy and integrity of the collected data, the Network Time Protocol (NTP) was used between the packet generator (Mobile Node) and packet receiver (Correspondent Node) to synchronize the time. The results show that the proposed method is able to work efficiently, maintaining 99% data security of route optimization in Mobile IPv6 (MIPv6) networks. The overall data integrity (by means of security) is improved 72% compared to existing MIPv6 by at a cost of 0.1 sec added overall delay, which is within the tolerable range by the network

    IP-Based Mobility Management and Handover Latency Measurement in heterogeneous environments

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    One serious concern in the ubiquitous networks is the seamless vertical handover management between different wireless technologies. To meet this challenge, many standardization organizations proposed different protocols at different layers of the protocol stack. The Internet Engineering Task Force (IETF) has different groups working on mobility at IP level in order to enhance mobile IPv4 and mobile IPv6 with different variants: HMIPv6 (Hierarchical Mobile IPv6), FMIPv6 (Fast Mobile IPv6) and PMIPv6 (Proxy Mobile IPv6) for seamless handover. Moreover, the IEEE 802.21 standard provides another framework for seamless handover. The 3GPP standard provides the Access Network and Selection Function (ANDSF) to support seamless handover between 3GPP – non 3GPP networks like Wi-Fi, considered as untrusted, and WIMAX considered as trusted networks. In this paper, we present an in-depth analysis of seamless vertical handover protocols and a handover latency comparison of the main mobility management approaches in the literature. The comparison shows the advantages and drawbacks of every mechanism in order to facilitate the adoption of the convenient one for vertical handover within Next Generation Network (NGN) environments. Keywords: Seamless vertical handover, mobility management protocols, IEEE 802.21 MIH, handover latenc

    A Survey on Proxy Mobile IPv6 Handover

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    [EN] As wireless technologies have been improving in recent years, a mobility management mechanism is required to provide seamless and ubiquitous mobility for end users who are roaming among points of attachment in wireless networks. Thus, Mobile IPv6 was developed by the Internet Engineering Task Force (IETF) to support the mobility service. However, Mobile IPv6 is unable to fulfill the requirements of real-time applications, such as video streaming service and voice over IP service, due to its high handover (HO) latency. To address this problem, Proxy Mobile IPv6 (PMIPv6) has been introduced by the IETF. In PMIPv6, which is a network-based approach, the serving network controls mobility management on behalf of the mobile node (MN). Thus, the MN is not required to participate in any mobility-related signaling. However, the PMIPv6 still suffers from lengthy HO latency and packet loss during a HO. This paper explores an elaborated survey on the HO procedure of PMIPv6 protocols and proposed approaches accompanied by a discussion about their points of weakness.This work was supported in part by the University of Malaya under UMRG Grant (RG080/11ICT).Modares, H.; Moravejosharieh, A.; Lloret, J.; Salleh, R. (2016). A Survey on Proxy Mobile IPv6 Handover. IEEE Systems Journal. 10(1):208-217. https://doi.org/10.1109/JSYST.2013.2297705S20821710

    Mobile IP: state of the art report

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