Paper Info
Title
Group key establishment (GKE): Two/three party key exchange to GKE
Abstract
This work presents the first scalable, efficient and generic compilers to construct group key exchange (GKE) protocols from two/three party key exchange (2-KE/3-KE) protocols. We propose three different compilers where the first one is a 2-KE to GKE compiler (2-TGKE) for tree topology, the second one is also for tree topology but from 3-KE to GKE (3-TGKE) and the third one is a compiler that constructs a GKE from 3-KE for circular topology. Our compilers 2-TGKE and 3-TGKE are first of their kind and are efficient due to the underlying tree topology. For the circular topology, we design a compiler called 3-CGKE. By extending the compilers 2-TGKE and 3-TGKE using the techniques in [?], scalable compilers for tree based authenticated group key exchange protocols (2-TAGKE/3-TAGKE), that are secure against active adversaries can be constructed. As an added advantage our compilers can be used in a setting where there is asymmetric distribution of computing power and hence applicable for low power devices such as PDA's, palmtops, sensor network nodes and mobile phones.
Year
DOI
Venue
2012
10.1109/ANTS.2012.6524229
Advanced Networks and Telecommuncations Systems
Keywords
DocType
ISSN
cryptographic protocols,mobile handsets,notebook computers,program compilers,telecommunication network topology,2-TAGKE,2-TGKE,3-CGKE,3-TAGKE,3-TGKE,PDA,circular topology,generic compilers,group key establishment,mobile phones,palmtops,sensor network nodes,three party key exchange protocols,tree based authenticated group key exchange protocols,tree topology,two party key exchange protocols,Circular topology,Compilers,Group Key Exchange,Real or Random Model,Scalability,Tree Based Group Key Exchange
Conference
2153-1676
ISBN
Citations 
PageRank 
978-1-4673-5130-0
0
0.34
References 
Authors
19
4
Name
Order
Citations
PageRank
Sree Vivek114020.72
Sharmila Deva Selvi213823.41
Deepanshu Shukla380.82
Chandrasekaran Pandu Rangan4473.76