DocumentCode
3722594
Title
Communicating Reliably in Multihop Dynamic Networks Despite Byzantine Failures
Author
Alexandre Maurer;S?bastien ;Xavier Defago
Author_Institution
Inst. Univ. de France, UPMC Sorbonne Univ., France
fYear
2015
Firstpage
238
Lastpage
245
Abstract
We consider the following problem: two nodes want to reliably communicate in a dynamic multihop network where some nodes have been compromised, and may have a totally arbitrary and unpredictable behavior. These nodes are called Byzantine. We consider the two cases where cryptography is available and not available. We prove the necessary and sufficient condition (that is, the weakest possible condition) to ensure reliable communication in this context. Our proof is constructive, as we provide Byzantine-resilient algorithms for reliable communication that are optimal with respect to our impossibility results. In a second part, we investigate the impact of our conditions in three case studies: participants interacting in a conference, robots moving on a grid and agents in the subway. Our simulations indicate a clear benefit of using our algorithms for reliable communication in those contexts.
Keywords
"Reliability","Cryptography","Spread spectrum communication","Network topology","Topology","Heuristic algorithms","Protocols"
Publisher
ieee
Conference_Titel
Reliable Distributed Systems (SRDS), 2015 IEEE 34th Symposium on
Electronic_ISBN
1060-9857
Type
conf
DOI
10.1109/SRDS.2015.10
Filename
7371588
Link To Document