Improving Satellite Multicast Security Scalability by Reducing Rekeying Requirements

As multicasting technologies grow in popularity, so does the need for scalable security architectures to support the user base. Significant research efforts are ongoing in the areas of group-key distribution and management. However, little research has addressed the security of very large, distribut...

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Veröffentlicht in:	IEEE network 2007-07, Vol.21 (4), p.51-56
Hauptverfasser:	Hubenko, V.P., Raines, R.A., Baldwin, R.O., Mullins, B.E., Mills, R.F., Grimaila, M.R.
Format:	Artikel
Sprache:	eng
Schlagworte:	Access control Authentication Computer architecture Computer crime Cryptography Government Milling machines Modular Multicast Orbits Reduction Satellite networks Satellites Scalability Security Simulation
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creator	Hubenko, V.P. Raines, R.A. Baldwin, R.O. Mullins, B.E. Mills, R.F. Grimaila, M.R.
description	As multicasting technologies grow in popularity, so does the need for scalable security architectures to support the user base. Significant research efforts are ongoing in the areas of group-key distribution and management. However, little research has addressed the security of very large, distributed groups communicating via low-earth orbit satellite networks. In this article, we review the requirements common to most secure, multicast networking environments; discuss existing scalable multicast security architectures; and present a novel modular scalable architecture for secure multicast, adapted to a low-earth orbit satellite system. Simulated results reveal a twelve-fold reduction in average user rekeying and an order of magnitude reduction in required key distribution versus the baseline architecture.
doi_str_mv	10.1109/MNET.2007.386470
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subjects	Access control Authentication Computer architecture Computer crime Cryptography Government Milling machines Modular Multicast Orbits Reduction Satellite networks Satellites Scalability Security Simulation
title	Improving Satellite Multicast Security Scalability by Reducing Rekeying Requirements
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