Title :
Quantum Information-Flow Security: Noninterference and Access Control
Author :
Mingsheng Ying ; Yuan Feng ; Nengkun Yu
Author_Institution :
FEIT, Univ. of Technol., Sydney, NSW, Australia
Abstract :
Quantum cryptography has been extensively studied in the last twenty years, but information-flow security of quantum computing and communication systems has been almost untouched in the previous research. Due to the essential difference between classical and quantum systems, formal methods developed for classical systems, including probabilistic systems, cannot be directly applied to quantum systems. This paper defines an automata model in which we can rigorously reason about information-flow security of quantum systems. The model is a quantum generalisation of Goguen and Meseguer´s noninterference. The unwinding proof technique for quantum noninterference is developed, and a certain compositionality of security for quantum systems is established. The proposed formalism is then used to prove security of access control in quantum systems.
Keywords :
access control; quantum cryptography; telecommunication security; Goguen noninterference; Meseguer noninterference; access control; automata model; probabilistic systems; quantum communication systems; quantum computing; quantum cryptography; quantum generalisation; quantum information-flow security; quantum systems; unwinding proof technique; Access control; Automata; Hilbert space; Quantum computing; Quantum mechanics; Vectors; quantum computing; quantum communication; security; information-flow; noninterference; access control;
Conference_Titel :
Computer Security Foundations Symposium (CSF), 2013 IEEE 26th
Conference_Location :
New Orleans, LA
DOI :
10.1109/CSF.2013.16
