Multicast Address Allocation Based on Interest Constraints

Yun Xia Yu; Wei Qun Han; Xiao Xuan  Tian

doi:10.4028/www.scientific.net/AMM.347-350.2111

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HomeApplied Mechanics and MaterialsApplied Mechanics and Materials Vols. 347-350Multicast Address Allocation Based on Interest...

Multicast Address Allocation Based on Interest Constraints

Abstract:

Multicast address allocation is a key and difficult points of HLA simulation system. Multicast address allocation need to select or improve according to the actual application needs. In the data distribution management based HLA simulation grid, for the contradiction of redundant data receives and multicast address demand , we put forward a multicast address allocation of HLA hierarchy structure and described the data forwarding algorithm. Within the site, multicast address allocation use the method based on the data receiver and forwarding server contains a filter allocation table based on the receiver's multicast address.When there is a data access, RTIA according to assign tables to forward the data to the appropriate multicast addresses. Using this method, you can avoid node receives data not related to.The simulation experiment and results analysis show that: the maximum level of nodes in the multicast reception of the message overhead can be significantly enhanced; using the hierarchical multicast routing aggregation, and based on the aggregation of routing information that is both feasible and effective.

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Periodical:

Applied Mechanics and Materials (Volumes 347-350)

Pages:

2111-2116

DOI:

https://doi.org/10.4028/www.scientific.net/AMM.347-350.2111

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Online since:

August 2013

Authors:

Yun Xia Yu, Wei Qun Han, Xiao Xuan Tian

Keywords:

Address Allocation, Distributed Simulation, Hierarchy Structure, Multicast

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References

[1] Wang Bin, Hou J.C. Multicast routing and its QoS extension: Problems, algorithms, and protocols. IEEE Network, 2000, 14(1): 22～36.

DOI: 10.1109/65.819168

Google Scholar

[2] Lui K. -S., Wang J., Xiao L, et al. QoS multicast routing with heterogeneous receivers. In: Proceedings of the IEEE GLOBECOM, San Francisco, 2003, 3597～3601.

DOI: 10.1109/glocom.2003.1258905

Google Scholar

[3] Boukerche A , Roy A, Thomas N. Dynamic grid-based multicast group assignment in data distribution management. Proceedings of 4th Workshop on Distribution Simulation and Real-time Application. New York U. S. A.: 2000. 47～54.

DOI: 10.1109/disrta.2000.874063

Google Scholar

[4] Calvin J, Cebula D P, Chiang C J, et al. Data subscription in support of multicast group allocation. In: Proceedings of the 13th Workshop on Standards for the Interoperability of Distributed Simulations. Orlando, FL, 1995. 367～369.

Google Scholar

[5] Katherine Lee Morse. An Adaptive. Distributed Algorithm for Interest Managemene: (Ph D Disseriation). University of California. 2000. 79～83.

Google Scholar

[6] K. Czajkowski and A. Dan and J. Rofrano and S. Tuecke and and M. Xu Agreementbased Grid Service Management (OGSI-Agreement). Global Grid Forum, GRAAP-WG Author Contribution Draft, June (2003).

Google Scholar

[7] R. Al-Ali, K. Amin, G. von Laszeswski, O. Rana, and D. Walker. An OGSABased Quality of Service Framework. In Proceedings of the Second International Workshop on Grid and Cooperative Computing (GCC2003), Shanghai, China, (2003).

Google Scholar

[8] Joshy Joseph, Craig Fellenstein, Grid Computing, IBM Press (2004).

Google Scholar

[9] X. Tang et al., QoS Provisioning Using IPv6 Flow Label In the Internet, , Proceedings of the 2003 Joint Conference of the Fourth International Conference on Information, Communications & Signal Processing and Fourth Pacific-Rim Conference on Multimedia, vol. 2, pp.1253-1257, 15-18 Dec. (2003).

DOI: 10.1109/icics.2003.1292662

Google Scholar