• Proceedings of the Korean Information Science Society Conference
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• 2004.04a
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• pp.499-501
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• 2004

현재 IPv6에서 이동 통신에 끊김 없는 서비스를 제공하기 위해 Mobile IPv6에 관한 많은 연구가 이루어지고 있다. FMIPv6는 핸드오버 절차를 간소화시켜서 빠른 속도의 핸드오버와 데이터 전송이 가능하며 SIP나 VoIP 및 무선 인터넷 동영상 서비스와 같은 경우에 많이 사용될 것으로 예상되지만 패킷 손실의 문제점을 지니고 있다. 본 논문은 FMIPv6에서 핸드오버시 발생하는 패킷 손실을 줄이기 위하여 라우터에서 사용하는 여러 패킷 관리 스케줄링 기법 중 WFQ기법을 사용한 트래픽 관리 메커니즘을 설계하고 평가하였다.

• Proceedings of the Korea Multimedia Society Conference
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• 2003.11b
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• pp.786-789
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• 2003

현재 IPv6에서 이동 통신에 끊김 없는 서비스를 제공하기 위해 Mobile IPv6에 관한 많은 연구가 이루어지고 있다. FMIPv6는 핸드오버 절차를 간소화시켜서 빠른 속도의 핸드오버와 데이터전송이 가능하며 SIP나 VoIP 및 무선 인터넷 동영상 서비스와 같은 경우에 많이 사용될 것으로 예상되지만 패킷 손실의 문제점을 지니고 있다. 본 논문은 FMIPv6에서 핸드오버시 발생하는 패킷 손실을 줄이기 위하여 라우터에서 사용하는 여러 패킷 관리 스케줄링 기법 중 WFQ기법을 사용한 트래픽 관리 메커니즘을 설계하였다.

• The KIPS Transactions:PartC
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• v.19C no.2
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• pp.153-166
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• 2012

Multicast service will be required to be an important form of communication without interruption to the delivery of multicast service in mobile networks increasing MNs. In this paper, we review current status of PMIPv6(Proxy Mobile IPv6) multicast listener support being standardized in the IETF and point out limitations of the current approach and we proposed a fast multicast handover procedure in inter domain PMIPv6 network of network-based mobility management. The proposed Fast multicast handover procedure in inter domain optimizes multicast management by using the context of the MNs. We evaluate the proposed fast multicast handover procedure compared to the based one through the developed analytical models and confirm that introduced fast multicast handover procedure provides the reduced service interruption time and total network overhead compared to the based one during handovers.

• Journal of KIISE:Information Networking
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• v.35 no.4
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• pp.301-310
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• 2008

In the existing literature, the handover process reveals numerous problems manifested by high movement detection latency. FMIPv6 can reduce packet loss using a tunnel-based handover mechanism. However, this mechanism may cause performance degradation due to the out-of-sequence packets. Recently. Proxy Mobile IPv6 is proposed for network-based mobility management to reduce overhead in mobile node. PMIPv6 can decrease handover latency which related overhead in MN by using network agent. In this paper, we proposed optimized fast handover scheme called Fast Proxy Mobile IPv6 (EF-PMIPv6). The proposed EF-PMIPv6 can support fast handover using fast IAPP and ND schemes. Further, a mathematical analysis is provided to show the benefits of our scheme. In the analysis, various parameters are used to compare our scheme with the current procedures, while our approach focuses on the reduction of handover latency.

• Proceedings of the Korean Information Science Society Conference
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• 2007.10a
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• pp.138-139
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• 2007

기존의 MIPv6는 오랜 시간동안의 핸드오버로 인하여 많은 패킷 손실 및 오랜 세션 단절을 야기시킨다. 이러한 문제점들을 향상시키기 위하여 Fast handover for Mobile IPv6 (FMIPv6) 프로토콜이 개발되었지만 여전히 터널링에 기반한 라우팅 방법은 패킷 순서 어긋남 문제로 인하여 성능이 하락하는 문제를 야기한다. 최근 모바일 단말에서의 이동성 관리 부하를 줄여주기 위하여, 네트워크 이동성 기반인 Proxy Mobile IPv6 (PMIPv6)가 제안되었다. PMIPv6는 모바일 단말에서 수행하던 이동성 관리를 네트워크 에이전트에서 해줌으로서 단말의 부하를 줄이고 이동성 관리 지연 시간을 줄일 수 있다. 하지만 현재 제안된 PMIPv6 또한 터널링 기법에 기반한 비효율적인 라우팅 경로로 인하여 성능이 저하될 수 있다. 본 논문에서는 PMIPv6 에서 안정되고 향상된 최적화 라우팅 기술이 접목된 빠른 핸드오버 방법인 Fast Proxy Mobile IPv6 (EF-PMIPv6) 제안한다.

• KIPS Transactions on Computer and Communication Systems
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• v.2 no.6
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• pp.265-278
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• 2013

With the recent advancements in various wireless communication technologies, the importance of mobile multicasting is coming to the fore, in an effort to use network resources more efficiently. In the past, when various mobile IP-based multicast techniques were proposed, the focus was put on the costs needed for network delivery for providing multicast services, as well as on minimizing the multicast handover delay. For techniques using MIPv6 (Mobile IPv6), a host-based mobility management protocol, however, it is fundamentally difficult to resolve the problems of handover delay and tunnel convergence. To resolve these problems, a network-based mobility management protocol called PMIPv6 (Proxy Mobile IPv6) was standardized. Although performance is improved in PMIPv6 over MIPv6, it still suffers from the problems of handover delay and tunnel convergence. In this paper, to overcome these limitations, a technique called LFH (Low-cost and Fast Handoff) is proposed for fast and low-cost mobility management with multicasting support in PMIPv6 networks. To reduce the interactions between the complex multicast routing protocol and the multicast messages, a simplified proxy method called MLD (Multicast Listener Discovery) is implemented and modified. Furthermore, a TCR (Tunnel Combination and Reconstruction) algorithm was used in the multicast handover procedure within the LMA (Local Mobility Anchor) domain, as well as in the multicast handover procedure between domains, in order to overcome the problem of tunnel convergence. As a result, it was found that LFH has reduced multicast delay compared to other types of multicast techniques, and that it requires lower costs as well.

• Journal of the Korea Society of Computer and Information
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• v.10 no.6 s.38
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• pp.261-268
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• 2005

Recently, Many People have studied in Mobile Ipv6 to provide seamless service. FMIPv6 is designed to reduce the procedure of handover and will be used SIP, VoIP and Mobile Internet moving picture service. But, If mobile node moves fast, it will happen to packet loss and interruption problem in handover procedure. So, In this paper, designed and evaluated traffic control mechanism using WFQ scheduling to reduce the packet loss that occurred to handover procedure.

• The Journal of the Institute of Internet, Broadcasting and Communication
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• v.15 no.2
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• pp.87-97
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• 2015

To support the efficient mobility MIPv6v, FMIPv6, HMIPv6 and host-based mobility management protocols have been developed. AAAC (Authentication, Authorization, Accounting and Charging) system is applied in this paper analyzed the the existing IPv6 PMIPv6, FPMIPv6 network security effective and IPv6 MMP (Mobile Management Protocol) Features and performance analysis is performed. And IPv6 MMP seamless transfer performance in terms of packet loss probability, will be analyzed. That can be efficiently used as a method for the integration of QoS and mobility so that you can manage and control the resources presented QoSB usage. Results of evaluation results showed a better overall fast handover structure of mobility management techniques. PMIPv6 and FPMIPv6 in many respects the most efficient structure that can be specifically, a fast handover of the structure of the network-based mobility management scheme showed the best results.

• Proceedings of the Korean Institute of Information and Commucation Sciences Conference
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• 2007.10a
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• pp.79-82
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• 2007

Recently the diffusion of the advancement of mobile communication technique and mobile terminal increased, The users were demanded seamless services when carrying and moving. It proposed the FMIPv6 (Fast Handoff for Mobile IPv6) from the IETF like this meeting this requirement. The handover procedure of the FMIPv6 causes to defecate with movement detection, new CoA configuration and binding update. But, the delay occurs from each process, when the DAD(Duplicate Address Detection) of the CoA executing, the big delay occurs. This paper proposes a scheme of delay reduction, it omits DAD process and stores in the AR(Access Router) relates in the CoA of the mobile terminal information.

• The Journal of Korean Institute of Communications and Information Sciences
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• v.33 no.6B
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• pp.420-429
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• 2008

Currently, IEEE 802.11 Network could not support optimized tunneling scheme and buffering scheme based on movement detection to reduce multimedia data packet loss when an MN move from current subnet to new subnet during handover. It is because IEEE 802.11 did not transfer information of movement detection to AP. In this paper, we proposed new fast handover scheme by using advanced access point and optimized snoop protocol for network based Proxy Mobile IPv6 in IEEE 802.11 Networks. During handover, the proposed scheme reduces both the multimedia data packet loss rate and the packet reordering problems without changing MN's mobility stack in IEEE 802.11 Networks.