Abstract
Some market analysts predict that there will be some 1.4 billion Bluetooth devices in operation by the year 2005 [8]. However, the current specification1.1 does not describe the algorithms or mechanisms to create a scatternet due to a variety of unsolved issues [3,12]. Since the upper layers are not defined in Bluetooth, it is not possible to implement the scatternet in current specification. Hence in this research, we need make some modifications to Bluetooth protocol in order to support the transmissions of packets in the scatternet. In this paper we describe a novel scatternet architecture, and present link performance of the proposed architecture. The issues of the routing algorithm, handoffs, and communications with other networks are also discussed.
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References
S. Baatz, M. Frank, R. Gopffarth, D. Kassakine, P. Martini, M. Schetelig and A. Vilavaara, Handoff support for mobility with IP over Bluetooth, in: Proceedings of 25th Annual IEEE Conference on Local Computer Networks (2000) pp. 143–154.
P. Bhagwat and J. Thomas, A Routing Vector Method (RVM) for routing in Bluetooth scatternets, in: '99) (1999) pp. 375–379.
Bluetooth Special Interest Group, http: //www.bluetooth.com/
R. Castaneda and S.R. Das, Query localization techniques for ondemand routing protocol in ad hoc networks, in: Proc. of the 5th Annual ACM/IEEE International Conference on Mobile Computing and Networking (August 1999) pp. 186–194.
Y.-L. Chang and C.-C. Hsu, Routing in wireless/mobile ad-hoc networks via dynamic group construction, Mobile Networks and Applications 5(1) (2000) 27–37.
H.-C. Chao, Y.-M. Chu and M.-T. Lin, The implication of the nextgeneration wireless network design: cellular mobile IPv6, IEEE Transactions on Consumer Electronics 46(3) (August 2000) pp. 656–663.
G. Chiruvolu, A. Agrawal and M. Vandenhoute, Mobility and QoS support for IPv6-based real-time wireless Internet traffic, in: '99) (1999) pp. 334–338.
D. Famolari and P. Agrawal, Architecture and performance of an embedded IP Bluetooth personal area network, in: IEEE International Conference on Personal Wireless Communications (2000) pp. 75–79.
C.E. Perkins, Sun Microsystems, “Mobile IP”, IEEE Communication Magazine 35(5) (1997) 84–99.
C.E. Perkins and K.-Y. Wang, Optimized smooth handoffs in Mobile IP, in: Proceedings of IEEE International Symposium on Computers and Communications (1999) pp. 340–346.
S. Singh, M. Woo and C.S. Raghavendra, Power-aware routing in mobile ad hoc networks, in: Proc. of ACM MOBICOM (1998) pp. 181–190.
Specification of the Bluetooth System core 1.1.
W. Su, S.-J. Lee and M. Gerla, Mobility prediction and routing in ad hoc wireless networks, International Journal of Network Management 11(1) (2001) 3–30.
J. Wu and H. Li, On calculating connected dominating set for efficient routing in ad hoc wireless networks, in: Proc. of the 3rd International Workshop on Discrete Algorithms and Methods for Mobile Computing and Communications (August 1999) pp. 7–14.
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Lai, W.K., Tan, D.H. A Novel Scatternet Scheme with IPv6 Compatibility. Mobile Networks and Applications 8, 675–685 (2003). https://doi.org/10.1023/A:1026082628602
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DOI: https://doi.org/10.1023/A:1026082628602