Abstract
Problem statement: With the explosive growth of and internet and web applications many emerging group-oriented distributed applications such as tele/video-conferencing, multiplayer games are based on group communication model that need security services such as privacy and data integrity Hence a secure distributed group key agreement is required to establish and authenticate a common group key for secure and private communication. There is a need for security services to provide group-oriented communication privacy and data integrity. It is important that members of the group can establish a common secret key for encrypting group communication. A key tree approach has been proposed by many authors to distribute group key in such a way that the rekeying cost scales with the logarithm of the group size for a join or leave request. The efficiency of this key tree approach critically depends on whether the key tree remains balanced over time as members join or leaves Approach: Instead of performing individual re-keying operations, an interval-based approach of re keying is adopted in the proposed scheme. Results: In the proposed scheme Queue-merge algorithm is used for rekeying which substantially reduces the computation cost and communication cost. The comparison shows that queue merge algorithm performs better than Batch algorithm in terms of minimizing the key tree and presumes better node density thereby reducing the computation cost. Conclusion: Performance comparison also shows reduced number of renewed nodes for various rekeying interval which reduces the communication cost.
Highlights
Distributed group key agreement protocol is different from traditional centralized group key management protocols
The interval-based approach provides re-keying efficiency for dynamic peer groups while preserving both distributed and contributory properties
The proposed model of this study provides a distributed collaborative key agreement protocols for dynamic peer groups
Summary
Distributed group key agreement protocol is different from traditional centralized group key management protocols. Diffie-Hellman protocol (Kim et al, 2001), several group key agreement protocols for a dynamic communication group in which members are located in a distributed fashion and can join and leave the group at any time. Tree group key use the convention that the rightmost member under the sub tree rooted at the sibling of the join and leave nodes will take the sponsor role.
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