1,319 research outputs found
Formal analysis of privacy in Direct Anonymous Attestation schemes
This article introduces a definition of privacy for Direct Anonymous Attestation schemes. The definition is expressed as an equivalence property which is suited to automated reasoning using Blanchet's ProVerif. The practicality of the definition is demonstrated by analysing the RSA-based Direct Anonymous Attestation protocol by Brickell, Camenisch & Chen. The analysis discovers a vulnerability in the RSA-based scheme which can be exploited by a passive adversary and, under weaker assumptions, corrupt issuers and verifiers. A security fix is identified and the revised protocol is shown to satisfy our definition of privacy
Security, Trust and Privacy (STP) Model for Federated Identity and Access Management (FIAM) Systems
The federated identity and access management systems facilitate the home domain
organization users to access multiple resources (services) in the foreign domain
organization by web single sign-on facility. In federated environment the user’s
authentication is performed in the beginning of an authentication session and allowed
to access multiple resources (services) until the current session is active. In current
federated identity and access management systems the main security concerns are: (1)
In home domain organization machine platforms bidirectional integrity measurement
is not exist, (2) Integrated authentication (i.e., username/password and home domain
machine platforms mutual attestation) is not present and (3) The resource (service)
authorization in the foreign domain organization is not via the home domain machine
platforms bidirectional attestation
Data Minimisation in Communication Protocols: A Formal Analysis Framework and Application to Identity Management
With the growing amount of personal information exchanged over the Internet,
privacy is becoming more and more a concern for users. One of the key
principles in protecting privacy is data minimisation. This principle requires
that only the minimum amount of information necessary to accomplish a certain
goal is collected and processed. "Privacy-enhancing" communication protocols
have been proposed to guarantee data minimisation in a wide range of
applications. However, currently there is no satisfactory way to assess and
compare the privacy they offer in a precise way: existing analyses are either
too informal and high-level, or specific for one particular system. In this
work, we propose a general formal framework to analyse and compare
communication protocols with respect to privacy by data minimisation. Privacy
requirements are formalised independent of a particular protocol in terms of
the knowledge of (coalitions of) actors in a three-layer model of personal
information. These requirements are then verified automatically for particular
protocols by computing this knowledge from a description of their
communication. We validate our framework in an identity management (IdM) case
study. As IdM systems are used more and more to satisfy the increasing need for
reliable on-line identification and authentication, privacy is becoming an
increasingly critical issue. We use our framework to analyse and compare four
identity management systems. Finally, we discuss the completeness and
(re)usability of the proposed framework
Threshold Anonymous Announcement in VANETs.
Vehicular ad hoc networks (VANETs) allow wireless communications between vehicles without the aid of a central server. Reliable exchanges of information about road and traffic conditions allow a safer and more comfortable travelling environment. However, such profusion of information may allow unscrupulous parties to violate user privacy. On the other hand, a degree of auditability is desired for law enforcement and maintenance purposes. In this paper we propose a Threshold Anonymous Announcement service using direct anonymous attestation and one-time anonymous authentication to simultaneously achieve the seemingly contradictory goals of reliability, privacy and auditability
Non-conventional digital signatures and their implementations – A review
The final publication is available at Springer via http://dx.doi.org/10.1007/978-3-319-19713-5_36The current technological scenario determines a profileration
of trust domains, which are usually defined by validating the digital
identity linked to each user. This validation entails critical assumptions
about the way users’ privacy is handled, and this calls for new methods
to construct and treat digital identities. Considering cryptography,
identity management has been constructed and managed through conventional
digital signatures. Nowadays, new types of digital signatures
are required, and this transition should be guided by rigorous evaluation
of the theoretical basis, but also by the selection of properly verified software
means. This latter point is the core of this paper. We analyse the
main non-conventional digital signatures that could endorse an adequate
tradeoff betweeen security and privacy. This discussion is focused on
practical software solutions that are already implemented and available
online. The goal is to help security system designers to discern identity
management functionalities through standard cryptographic software libraries.This work was supported by Comunidad de Madrid (Spain) under the project S2013/ICE-3095-CM (CIBERDINE) and the Spanish Government project TIN2010-19607
I2PA : An Efficient ABC for IoT
Internet of Things (IoT) is very attractive because of its promises. However,
it brings many challenges, mainly issues about privacy preserving and
lightweight cryptography. Many schemes have been designed so far but none of
them simultaneously takes into account these aspects. In this paper, we propose
an efficient ABC scheme for IoT devices. We use ECC without pairing, blind
signing and zero knowledge proof. Our scheme supports block signing, selective
disclosure and randomization. It provides data minimization and transactions'
unlinkability. Our construction is efficient since smaller key size can be used
and computing time can be reduced. As a result, it is a suitable solution for
IoT devices characterized by three major constraints namely low energy power,
small storage capacity and low computing power
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