63,555 research outputs found
Model the System from Adversary Viewpoint: Threats Identification and Modeling
Security attacks are hard to understand, often expressed with unfriendly and
limited details, making it difficult for security experts and for security
analysts to create intelligible security specifications. For instance, to
explain Why (attack objective), What (i.e., system assets, goals, etc.), and
How (attack method), adversary achieved his attack goals. We introduce in this
paper a security attack meta-model for our SysML-Sec framework, developed to
improve the threat identification and modeling through the explicit
representation of security concerns with knowledge representation techniques.
Our proposed meta-model enables the specification of these concerns through
ontological concepts which define the semantics of the security artifacts and
introduced using SysML-Sec diagrams. This meta-model also enables representing
the relationships that tie several such concepts together. This representation
is then used for reasoning about the knowledge introduced by system designers
as well as security experts through the graphical environment of the SysML-Sec
framework.Comment: In Proceedings AIDP 2014, arXiv:1410.322
Representing Network Trust and Using It to Improve Anonymous Communication
Motivated by the effectiveness of correlation attacks against Tor, the
censorship arms race, and observations of malicious relays in Tor, we propose
that Tor users capture their trust in network elements using probability
distributions over the sets of elements observed by network adversaries. We
present a modular system that allows users to efficiently and conveniently
create such distributions and use them to improve their security. The major
components of this system are (i) an ontology of network-element types that
represents the main threats to and vulnerabilities of anonymous communication
over Tor, (ii) a formal language that allows users to naturally express trust
beliefs about network elements, and (iii) a conversion procedure that takes the
ontology, public information about the network, and user beliefs written in the
trust language and produce a Bayesian Belief Network that represents the
probability distribution in a way that is concise and easily sampleable. We
also present preliminary experimental results that show the distribution
produced by our system can improve security when employed by users; further
improvement is seen when the system is employed by both users and services.Comment: 24 pages; talk to be presented at HotPETs 201
Grids and the Virtual Observatory
We consider several projects from astronomy that benefit from the Grid paradigm and
associated technology, many of which involve either massive datasets or the federation
of multiple datasets. We cover image computation (mosaicking, multi-wavelength
images, and synoptic surveys); database computation (representation through XML,
data mining, and visualization); and semantic interoperability (publishing, ontologies,
directories, and service descriptions)
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