20/05/2005, 15:00 — 16:00 — Room P4.35, Mathematics Building
Paulo Mateus, Instituto Superior Técnico
A process algebra for reasoning about quantum security
We present a process algebra for specifying and reasoning about
quantum security protocols. Since the computational power of the
protocol agents must be restricted to quantum polynomial-time, we
introduce the logarithmic cost quantum random access machine
(QRAM), and incorporate it in the syntax of the algebra.
Probabilistic transition systems give the semantic support for the
process algebra. Term reduction is stochastic because quantum
computation is probabilistic and, moreover, we consider a uniform
scheduler to resolve non-deterministic choices. With the purpose of
defining security properties, we also introduce observational
equivalence and quantum computational indistinguishability, and
show that the latter is a congruence relation. A simple corollary
of this result asserts that any security property defined via
emulation is compositional. Finally, we illustrate our approach by
establishing the concept of quantum zero-knowledge protocol. Joint
work with P. Adão.
Supported by: Phys-Info (IT), SQIG (IT), CeFEMA and CAMGSD, with funding from FCT, FEDER and EU FP7, specifically through the Doctoral Programme in the Physics and Mathematics of Information (DP-PMI), FCT strategic projects PEst-OE/EEI/LA0008/2013 and UID/EEA/50008/2013, IT project QuSim, project CRUP-CPU CQVibes, the FP7 Coordination Action QUTE-EUROPE (600788), and the FP7 projects Landauer (GA 318287) and PAPETS (323901).
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