• Journal of the Institute of Electronics Engineers of Korea TC
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• v.44 no.4
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• pp.49-58
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• 2007

Hierarchical Mobile IPv6 (HMIPv6) has been proposed by Internet Engineering Task Force (IETF) to compensate for such problems as handover latency and signaling overhead in employing Mobile IPv6 (MIPv6). HMIPv6 supports micro-mobility within a domain and introduces a new entity, namely mobility anchor point (MAP) as a local home agent. However, HMIPv6 causes load concentration at a particular MAP and longer handover latency when inter-domain handover occurs. In order to solve such problems, this paper establishes a virtual domain (VD) of a higher layer MAP and proposes a MAP changing algorithm in which the routing path changes between mobile node (MN) and correspondent node(CN) according to the mobile position and the direction of the MN before inter-domain handover occurs. The proposed algorithm not only enables complete handover binding-update of the on-link care of address (LCoA) only when inter-domain handover occurs, but concentrated load of a particular MAP is distributed as well. This is because the MNs registered with higher layer MAP and lower layer MAP coexist in the VD. We simulate the performance of the proposed algorithm and compare with HMIPv6.

• Journal of KIISE:Information Networking
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• v.32 no.2
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• pp.167-179
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• 2005

In hierarchical Mobile IPv4 Networks the highest FA(Foreign Agent) may experience serious congestion and delay since the highest FA plays a role of CoA(Care of Address) for all mobile nodes in the domain, In this paper, we propose mechanism called 'HRFA(Hierarchical Root Foreign Agent)', which distributes the load imposed on the highest FA. In the proposed HRFA scheme, multiple HRFAs are selected to provide the similar service that is provided by the highest FA. According to which entity determines HRFAs, HRFA scheme is categorized into 'Active' and 'Passive' approaches. HRFA scheme is further categorized into 'All MN(Mobile Node)s' and 'New MNs' approaches, depending on which mobile nodes are assigned to a newly elected HRFA. Through a course of simulations, we investigate the performance of 4 possible combinations of HRFA schemes. We also compare the performance of the proposed HRFA schemes with the LMSP(Local Multicast Service Provider) scheme, which is a scheme to distribute the load of FA for multicast service in hierarchical wireless network domain. The simulation results show that the Passive & New MN approach performs best with respect to both the overhead and the load balancing.

• The Journal of the Convergence on Culture Technology
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• v.9 no.5
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• pp.613-618
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• 2023

The advancement of Information and Communication Technology (ICT) is accelerating innovation across society, and the defense sector is no exception as it adopts technologies aligned with the Fourth Industrial Revolution. In particular, the Army is making efforts to establish an advanced Army TIGER 4.0 system, aiming to create highly intelligent and interconnected mobile units. To achieve this, the Army is integrating cutting-edge scientific and technological advancements from the Fourth Industrial Revolution to enhance mobility, networking, and intelligence. However, the existing addressing system, IPv4, has limitations in meeting the exponentially increasing demands for network IP addresses. Consequently, the military considers IPv6 address allocation as an essential process to ensure efficient network management and address space provisioning. This study proposes an approach for IPv6 address allocation for the future military, considering the Army TIGER system. The proposal outlines how the application networks of the Army can be differentiated, and IP addresses can be allocated to future unit structures of the Army, Navy, and Air Force, from the Ministry of National Defense and the Joint Chiefs of Staff. Through this approach, the Army's advanced ground combat system, Army TIGER 4.0, is expected to operate more efficiently in network environments, enhancing overall information exchange and mobility for the future military.

• Journal of Information Processing Systems
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• v.8 no.4
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• pp.603-620
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• 2012

Proxy Mobile IPv6 (PMIPv6) is a network-based mobility support protocol and it does not require Mobile Nodes (MNs) to be involved in the mobility support signaling. In the case when multiple interfaces are active in an MN simultaneously, each data flow can be dynamically allocated to and redirected between different access networks to adapt to the dynamically changing network status and to balance the workload. Such a flow redistribution control is called "flow mobility". In the existing PMIPv6-based flow mobility support, although the MN's logical interface can solve the well-known problems of flow mobility in a heterogeneous network, some missing procedures, such as an MN-derived flow handover, make PMIPv6-based flow mobility incomplete. In this paper, an enhanced flow mobility support is proposed for actualizing the flow mobility support in PMIPv6. The proposed scheme is also based on the MN's logical interface, which hides the physical interfaces from the network layer and above. As new functional modules, the flow interface manager is placed at the MN's logical interface and the flow binding manager in the Local Mobility Anchor (LMA) is paired with the MN's flow interface manager. They manage the flow bindings, and select the proper access technology to send packets. In this paper, we provide the complete flow mobility procedures which begin with the following three different triggering cases: the MN's new connection/disconnection, the LMA's decision, and the MN's request. Simulation using the ns-3 network simulator is performed to verify the proposed procedures and we show the network throughput variation caused by the network offload using the proposed procedures.

• Proceedings of the Korean Information Science Society Conference
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• 2000.04a
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• pp.220-222
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• 2000

무선기술의 발전과 다양한 휴대용 장비가 개발되면서 무선 인터넷 서비스에 대한 요구가 증가하고 있다. 하지만 현재 네트워크에서 사용되고 있는 IPv4를 이용해서는 IP의 이동 환경을 지원하지 못한다. 이에 여러 연구가 진행되고 있으며 IETE의 Mobile IP Working Group에서는 기존의 IPv4를 사용하면서도 이동환경을 지원하기 위한 이동 IP에 대해 연구를 진행하고 있다. 이에 본 논문에서는 인터넷에서 계층적이며 효율적인 이동성 지원을 위하여 인트라 도메인과 인터도메인에서 이동성 지원을 위한 기법을 제안한다. 본 논문에서는 멀티캐스트 라우팅 프로콜인 PIM-SM(Protocol Independent Multicase-Sparse Mode)과 MSDP(Multipicast Source Discovery Protocol)를 이용하며, 하나의 이동 노드 (Mobile Node, MN)는 대응 노드(Correspondent Node, CN)에 의해 특정한 멀티캐스트 그룹으로 인식된다. 이동 노드를 목적지로 하는 패킷은 RP(Rendezvous Point)로 보내진 후 이동노드의 현재 위치로 포워딩 된다. 또한 인트라 도메인과 인터 도메인에서 계층적이며 효율적인 방법을 지원함으로써 핸드오프 지연을 감소시키며, 홈 에이전트와 대응 노드에 부가되던 부하를 줄일 수 있다.

• Review of KIISC
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• v.8 no.2
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• pp.19-36
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• 1998

IPv6(일명 IPng (Internet Protocol next Generation)은 현재의 인터넷 프로토콜인 IPv4를 개량한 다음 세대의 인터넷 프로토콜이다. 새롭게 개량된 주요내용은 주소공간의 확장, 이동사용자를 위한 IP(Mobile IP)추가, VOD(Video on demand)와 같은 고속통신 QOS(Quality of service) 추가, 그리고 네트워크 계층에서 보안메커니즘 제공 등을 들 수 있다. [1][2][3]. 본논문에서는 이들 중에서 네트워크 계층의 보안 메카니즘을 기존의 전송계층의 SSL(Secure Socket Layer)보안 메카니즘과 비교 분석 하였다.

• The Journal of Korean Institute of Communications and Information Sciences
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• v.31 no.10B
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• pp.909-918
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• 2006

Recently, the qualities of the call and QoS of data service in mobile wireless IP networks inclusive of internet wired networks are very challenging issues. IntServ, DiffServ and MPLS model for supporting QoS in wired networks are representative models which are investigated generally up to now. While, MIPv4(Mobile IPv4) and MIPv6 are proposed to support mobility management for mobile wireless internet networks. But, MIPv4 and MIPv6 based UDP and TCP/IP protocol have many issues to be solved like efficient QoS and frequent handover management. In this paper, we propose a efficient management platform to support seamless data services and end-to-end QoS management in IP-based wireless mobility environments using transport layer protocol, SCTP which support multi-homing and multi-streaming. We used SCTP protocol and IntServ technology for end-to-end communications to support multi-homing and seamless QoS management in the IP-based mobile wireless networks.

• Journal of Convergence for Information Technology
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• v.9 no.6
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• pp.13-18
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• 2019

This paper proposes efficient and secure two-way authentication protocol for binding update messages between mobile devices and home agents / correspondent nodes in IoT and Mobile IPv6 (MIPv6) environments with limited computing power and resources. Based on the MIPv6 message exchange, the proposed protocol satisfies both the authentication and the public key exchange optimized for both sides of the communication with minimum modification. In the future, we will carry out a performance analysis study by implementing the proposed protocol in detail.

• Proceedings of the Korean Information Science Society Conference
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• 2003.10c
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• pp.703-705
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• 2003

현재 인터넷 서비스의 근간을 형성하고 있는 IPv4의 가용 주소 공간의 고갈, 보안성의 결여, 그리고 멀티미디어 서비스를 위한 QoS(Quility of Service)의 필요성과 같은 요구사항을 바탕으로 차세대 인터넷 프로토콜(IPv6)로의 전환이 요구되고 있다. 본 연구 목적은 이러한 네트워크상의 이동 인터넷 환경에다 실시간 서비스를 제공할 수 있도록 SIP(Session Initiation Protocol)를 적용하여 통함 된 환경이 이전 보다 안전한 인터넷 정보서비스를 제공할 수 있도록 보안 메커니즘을 적용 하였다. 네트워크 계층과 응용 계층의 이동성 관리 모델의 통합은 전체적인 시그널링 부하를 줄이고 지속적인 통신을 위한 빠른 핸드오프를 제공한다. 즉, 본 연구는 현재 Mobile IPv6 에서 보안상 취약점으로 나타나는 문제점 및 SIP 보안 고려사항 및 이동성을 해결하기 위해 제안되는 해결방안들을 분석하고 적합한 보안 메커니즘 적용 방안을 제안 하였다.

• Journal of the Korea Institute of Information and Communication Engineering
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• v.16 no.4
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• pp.677-685
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• 2012

Recently, wireless multi-networking technology has been studied for supporting multi-interface in mobile node. As the related work, in the IETF NetExt WG, the extension of Proxy Mobile IPv6 protocol for supporting flow mobility is actively on going in discussion. PMIPv6 protocol supports simultaneous access through the multi-interface in a mobile node and inter-technology handover between multiple interfaces. However, this protocol can not support flow mobility. Thus, in this paper, when a mobile node connects to PMIPv6 domain through multi-interface, as a way to support flow mobility, the design of logical interface and Home Network Prefix change scheme based on logical interface are proposed, We show that the proposed scheme can perform flow mobility service without end-to-end disconnection in PMIPv6 domain.