10,313 research outputs found
Covert Quantum Internet
We apply covert quantum communication based on entanglement generated from
the Minkowski vacuum to the setting of quantum computation and quantum
networks. Our approach hides the generation and distribution of entanglement in
quantum networks by taking advantage of relativistic quantum effects. We devise
a suite of covert quantum teleportation protocols that utilize the shared
entanglement, local operations, and covert classical communication to transfer
or process quantum information in stealth. As an application of our covert
suite, we construct two prominent examples of measurement-based quantum
computation, namely the teleportation-based quantum computer and the one-way
quantum computer. In the latter case we explore the covert generation of graph
states, and subsequently outline a protocol for the covert implementation of
universal blind quantum computation.Comment: 9 pages, 2 figure
Micro protocol engineering for unstructured carriers: On the embedding of steganographic control protocols into audio transmissions
Network steganography conceals the transfer of sensitive information within
unobtrusive data in computer networks. So-called micro protocols are
communication protocols placed within the payload of a network steganographic
transfer. They enrich this transfer with features such as reliability, dynamic
overlay routing, or performance optimization --- just to mention a few. We
present different design approaches for the embedding of hidden channels with
micro protocols in digitized audio signals under consideration of different
requirements. On the basis of experimental results, our design approaches are
compared, and introduced into a protocol engineering approach for micro
protocols.Comment: 20 pages, 7 figures, 4 table
Command & Control: Understanding, Denying and Detecting - A review of malware C2 techniques, detection and defences
In this survey, we first briefly review the current state of cyber attacks,
highlighting significant recent changes in how and why such attacks are
performed. We then investigate the mechanics of malware command and control
(C2) establishment: we provide a comprehensive review of the techniques used by
attackers to set up such a channel and to hide its presence from the attacked
parties and the security tools they use. We then switch to the defensive side
of the problem, and review approaches that have been proposed for the detection
and disruption of C2 channels. We also map such techniques to widely-adopted
security controls, emphasizing gaps or limitations (and success stories) in
current best practices.Comment: Work commissioned by CPNI, available at c2report.org. 38 pages.
Listing abstract compressed from version appearing in repor
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