微信服务号

微信订阅号

2025-5-17- 0
Home > Archive>Volume 24, Issue S1, 2013 >62-75
PDF HTML XML Export Cite reminder
Mobile IPv6 Protocol for Wireless Sensor Networks
Author:
Affiliation:

  • Article
    • | |
  • Metrics
    • |
  • Reference [19]
    • |
  • Related [20]
    • | | |
  • Comments
    Abstract:

    It is an important research area in the Internet of Things (IoT) to maintain the communication continuity between the moving Mobile Nodes (MNs) in the IEEE 802.15.4 Low-power Wireless Personal Network (LoWPAN) and the Correspondent Nodes (CNs) in the IP network. In the existing mobile IPv6 protocols, such as MIPv6, HMIPv6 etc, some Signaling Packets (SPs) for mobility management have sizes larger than the maximum payload of the IEEE 802.15.4 MAC frame so that they are fragmented into multiple pieces carried in the LoWPAN, which increases the loss probability and the delay of the SPs. The proposed WPAN oriented MIPv6 (WoMIPv6) is able to reduce the sizes of the SPs to be less than 60 B using header compression technique so that the handoff caused by the MN crossing the boundary of two successive subnets is completed after a few small sizes of SPs are exchanged. In other words, each SP in the WoMIPv6 can be carried within a single IEEE 802.15.4 MAC frame without being fragmented. In addition, the delay in the WoMIPv6 is derived. Numeric analyses show WoMIPv6 performs better than HMIPv6 both in SP size and delay.

    Reference
    [1] IEEE Computer Society. IEEE 802.15.4 Standard for Wireless Medium Access Control (MAC) and Physical Layer (PHY) Specifications for Low-Rate Wireless Personal Area Networks (WPANs). 2011.
    [2] Sleman A, Moeller R. Integration of wireless sensor network services into other home and industrial networks using device profile for Web services (DPWS). In: Proc. of the Information and Communication Technologies: From Theory to Applications (ICTTA). 2008. 1-5.
    [3] Montenegro G, Hui J, Culler D. Transmission of IPv6 packets over IEEE 802.15.4 networks. RFC 4944, Internet Engineering Task Force, 2007.
    [4] Kushalnagar N, Montenegro G, Schumacher C. IPv6 over low-power wireless personal area networks (6LoWPAN): Overview, assumptions, problem statement, and goals. RFC 4919, Internet Engineering Task Force, 2007.
    [5] Perkins C, Johnson D, Arkko J. Mobility support in IPv6. RFC 6275,Internet Engineering Task Force, 2011.
    [6] Soliman H, Castelluccia C, El-Makri K, Bellie L. Hierarchical mobile IPv6 (HMIPv6) mobility management. RFC 5380, Internet Engineering Task Force, 2008.
    [7] Koodli R. Mobile IPv6 fast handovers. RFC 5568, Internet Engineering Task Force, 2009.
    [8] Gundavelli S, Leung K, Devarapalli V, Chowdhury K, Patil B. Proxy mobile IPv6. RFC 5213, Internet Engineering Task Force, 2008.
    [9] Deering S, Hinden R. Internet protocol specification, Version 6 (IPv6). RFC 2460, 1998.
    [10] Devarapalli V, Wakikawa R, Petrescu A, Thubert P. Network mobility (NEMO) basic support protocol. RFC 3963, Internet Engineering Task Force, 2005.
    [11] Jara AJ, Zamora MA, Skarmeta AFG. HWSN6: Hospital wireless sensor networks based on 6LoWPAN. Computational Science and Engineering, 2009,2:879-884.
    [12] Ha M, Kim D, Kim SH, Hong SM. Inter-MARIO: A fast and seamless mobility protocol to support inter-pan handover in 6LoWPAN. In: Proc. of the Global Telecommunications Conf. (GLOBECOM 2010). 2010. 1-6.
    [13] Bag G, Shams SMS, Akbar AH, Raza HMMT, Kim KH, Yoo SW. Network assisted mobility support for 6LoWPAN. In: Proc. of the Consumer Communications and Networking Conf. 2009. 1-5.
    [14] Zinonos Z, Vassiliou V. Inter-Mobility support in controlled 6LoWPAN networks. In: Proc. of the GLOBECOM Workshops (GC Workshops). 2010. 1718-1723.
    [15] Kim JH, Hong CS, Shon T. A lightweight NEMO protocol to support 6LoWPAN. ETRI Journal, 2008,30(5):685-695.
    [16] Hui J, Thubert P. Compression format for IPv6 datagrams over IEEE 802.15.4. RFC 6282, Internet Engineering Task Force, 2011.
    [17] Shelby Z, Chakrabarti S, Nordmark E, Bormann C. Neighbor discovery optimization for IPv6 over low-power wireless personal area networks (6LoWPANs). RFC 6775, Internet Engineering Task Force, 2012.
    [18] Chowdhury AH, Ikram M, Cha HS, Redwan H, Shams SMS, Kim KH, Yoo SW. Route-Over vs mesh-under routing in 6LoWPAN. In: Proc. of the Int'l Wireless Communications and Mobile Computing Conf. (IWCMC). 2009. 1208-1212.
    [19] Timmons NF, Scanlon WG. Analysis of the performance of IEEE 802.15.4 for medical sensor body area networking. In: Proc. of 2004 the 1st Annual IEEE Communications Society Conf. on Sensor and Ad Hoc Communications and Networks (IEEE SECON 2004). 2004. 16-24.
    Cited by
    Comments
    Comments
    分享到微博
    Submit
Get Citation

朱艺华,胡峥,朱德庆,池凯凯.一种适用于无线传感器网络的移动IPv6协议.软件学报,2013,24(S1):62-75

Copy
Share
Article Metrics
  • Abstract:3107
  • PDF: 5038
  • HTML: 0
  • Cited by: 0
History
  • Received:May 02,2013
  • Revised:August 22,2013
  • Online: October 18,2013
Links:Institute of Software, CASChina Computer FederationCASNSFC
You are the first2045052Visitors
Copyright: Institute of Software, Chinese Academy of Sciences Beijing ICP No. 05046678-4
Address:4# South Fourth Street, Zhong Guan Cun, Beijing 100190,Postal Code:100190
Phone:010-62562563 Fax:010-62562533 Email:jos@iscas.ac.cn
Technical Support:Beijing Qinyun Technology Development Co., Ltd.

Beijing Public Network Security No. 11040202500063