Towards Secure and Scalable Computation in Peer-to-Peer Networks

F
FOCS
2006
47th Annual IEEE Symposium on Foundations of Computer Science (FOCS'06)
Abstract - Towards Secure and Scalable Computation in Peer-to-Peer Networks

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47th Annual IEEE Symposium on Foundations of Computer Science (FOCS'06)

Berkeley, California

October 21-October 24

ISBN: 0-7695-2720-5

	ASCII Text	x
	Valerie King, Jared Saia, Vishal Sanwalani, Erik Vee, "Towards Secure and Scalable Computation in Peer-to-Peer Networks," Foundations of Computer Science, IEEE Annual Symposium on, pp. 87-98, 47th Annual IEEE Symposium on Foundations of Computer Science (FOCS'06), 2006.

	BibTex	x
	@article{ 10.1109/FOCS.2006.77, author = {Valerie King and Jared Saia and Vishal Sanwalani and Erik Vee}, title = {Towards Secure and Scalable Computation in Peer-to-Peer Networks}, journal ={Foundations of Computer Science, IEEE Annual Symposium on}, volume = {0}, year = {2006}, issn = {0272-5428}, pages = {87-98}, doi = {http://doi.ieeecomputersociety.org/10.1109/FOCS.2006.77}, publisher = {IEEE Computer Society}, address = {Los Alamitos, CA, USA}, }

	RefWorks Procite/RefMan/Endnote	x
	TY - CONF JO - Foundations of Computer Science, IEEE Annual Symposium on TI - Towards Secure and Scalable Computation in Peer-to-Peer Networks SN - 0272-5428 SP87 EP98 A1 - Valerie King, A1 - Jared Saia, A1 - Vishal Sanwalani, A1 - Erik Vee, PY - 2006 KW - null VL - 0 JA - Foundations of Computer Science, IEEE Annual Symposium on ER -

Valerie King, University of Victoria, Canada

Jared Saia, University of New Mexico, USA

Vishal Sanwalani, University of Waterloo, Canada

Erik Vee, IBM Almaden Research Center, USA

DOI Bookmark: http://doi.ieeecomputersociety.org/10.1109/FOCS.2006.77

We consider the problems of Byzantine Agreement and Leader Election, where a constant fraction b \le 1/3 of processors are controlled by a malicious adversary. The first problem requires that all uncorrupted processors come to an agreement on a bit initially held by one of the uncorrupted processors; the second requires that the uncorrupted processors choose a leader who is uncorrupted.

Motivated by the need for robust and scalable computation in peer-to-peer networks, we design the first scalable protocols for these problems for a network whose degree is polylogarithmic in its size. By scalable, we mean that each uncorrupted processor sends and processes a number of bits that is only polylogarithmic in n. (We assume no limit on the number of messages sent by corrupted processors.) With high probability, our Byzantine Agreement protocol results in agreement among a 1..O(1= ln n) fraction of the uncorrupted processors. With constant probability, our Leader Election protocol elects an uncorrupted leader and ensures that a 1..O(1= ln n) fraction of the uncorrupt processors know this leader.

We assume a full information model. Thus, the adversary is assumed to have unlimited computational power and has access to all communications, but does not have access to processors' private random bits.

Citation:

Valerie King, Jared Saia, Vishal Sanwalani, Erik Vee, "Towards Secure and Scalable Computation in Peer-to-Peer Networks," focs, pp.87-98, 47th Annual IEEE Symposium on Foundations of Computer Science (FOCS'06), 2006

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