Context-aware multi-factor authentication

Trabalho apresentado no âmbito do Mestrado em Engenharia Informática, como requisito parcial para obtenção do grau de Mestre em Engenharia InformáticaAuthentication systems, as available today, are inappropriate for the requirements of ubiquitous, heterogeneous and large scale distributed systems. Some important limitations are: (i) the use of weak or rigid authentication factors as principal’s identity proofs, (ii) non flexibility to combine different authentication modes for dynamic and context-aware interaction criteria, (iii) not being extensible models to integrate new or emergent pervasive authentication factors and (iv) difficulty to manage the coexistence of multi-factor authentication proofs in a unified single sign-on solution. The objective of this dissertation is the design, implementation and experimental evaluation of a platform supporting multi-factor authentication services, as a contribution to overcome the above limitations. The devised platform will provide a uniform and flexible authentication base for multi-factor authentication requirements and context-aware authentication modes for ubiquitous applications and services. The main contribution is focused on the design and implementation of an extensible authentication framework model, integrating classic as well as new pervasive authentication factors that can be composed for different context-aware dynamic requirements. Flexibility criteria are addressed by the establishment of a unified authentication back-end, supporting authentication modes as defined processes and rules expressed in a SAML based declarative markup language. The authentication base supports an extended single sign-on system that can be dynamically tailored for multi-factor authentication policies, considering large scale distributed applications and according with ubiquitous interaction needs

A design space for social object labels in museums

Taking a problematic user experience with ubiquitous annotation as its point of departure, this thesis defines and explores the design space for Social Object Labels (SOLs), small interactive displays aiming to support users' in-situ engagement with digital annotations of physical objects and places by providing up-to-date information before, during and after interaction. While the concept of ubiquitous annotation has potential applications in a wide range of domains, the research focuses in particular on SOLs in a museum context, where they can support the institution's educational goals by engaging visitors in the interpretation of exhibits and providing a platform for public discourse to complement official interpretations provided on traditional object labels. The thesis defines and structures the design space for SOLs, investigates how they can support social interpretation in museums and develops empirically validated design recommendations. Reflecting the developmental character of the research, it employs Design Research as a methodological framework, which involves the iterative development and evaluation of design artefacts together with users and other stakeholders. The research identifies the particular characteristics of SOLs and structures their design space into ten high-level aspects, synthesised from taxonomies and heuristics for similar display concepts and complemented with aspects emerging from the iterative design and evaluation of prototypes. It presents findings from a survey exploring visitors' mental models, preferences and expectations of commenting in museums and translates them into requirements for SOLs. It reports on scenario-based design activities, expert interviews with museum professionals, formative user studies and co-design sessions, and two empirical evaluations of SOL prototypes in a gallery environment. Pulling together findings from these research activities it then formulates design recommendations for SOLs and supports them with related evidence and implementation examples. The main contributions are (i) to delineate and structure the design space for SOLs, which helps to ground SOLs in the literature and understand them as a distinct display concept with its own characteristics; (ii) to explore, for the first time, a visitor perspective on commenting in museums, which can inform research, development and policies on user-generated content in museums and the wider cultural heritage sector; (iii) to develop empirically validated design recommendations, which can inform future research and development into SOLs and related display concept. The thesis concludes by summarising findings in relation to its stated research questions, restating its contributions from ubiquitous computing, domain and methodology perspectives, and discussing open issues and future work

The case of Ferbritas Cadastre Information System

The processes of mobilization of land for infrastructures of public and private domain are developed according to proper legal frameworks and systematically confronted with the impoverished national situation as regards the cadastral identification and regularization, which leads to big inefficiencies, sometimes with very negative impact to the overall effectiveness. This project report describes Ferbritas Cadastre Information System (FBSIC) project and tools, which in conjunction with other applications, allow managing the entire life-cycle of Land Acquisition and Cadastre, including support to field activities with the integration of information collected in the field, the development of multi-criteria analysis information, monitoring all information in the exploration stage, and the automated generation of outputs. The benefits are evident at the level of operational efficiency, including tools that enable process integration and standardization of procedures, facilitate analysis and quality control and maximize performance in the acquisition, maintenance and management of registration information and expropriation (expropriation projects). Therefore, the implemented system achieves levels of robustness, comprehensiveness, openness, scalability and reliability suitable for a structural platform. The resultant solution, FBSIC, is a fit-for-purpose cadastre information system rooted in the field of railway infrastructures. FBSIC integrating nature of allows: to accomplish present needs and scale to meet future services; to collect, maintain, manage and share all information in one common platform, and transform it into knowledge; to relate with other platforms; to increase accuracy and productivity of business processes related with land property management

Resilient Computing Curriculum

This Deliverable presents the MSc Curriculum in Resilient Computing suggested by ReSIST. It includes the description of the syllabi for all the courses in the two semesters of the first year, those for the common courses in semester 3 in the second year together with an exemplification of possible application tracks with the related courses. This MSc curriculum has been updated and completed taking advantage of a large open discussion inside and outside ReSIST. This MSc Curriculum is on-line on the official ReSIST web site, where all information is available together with all the support material generated by ReSIST and all other relevant freely available support material.European Commission through NoE IST-4-026764-NOE (ReSIST

Security in Distributed, Grid, Mobile, and Pervasive Computing

This book addresses the increasing demand to guarantee privacy, integrity, and availability of resources in networks and distributed systems. It first reviews security issues and challenges in content distribution networks, describes key agreement protocols based on the Diffie-Hellman key exchange and key management protocols for complex distributed systems like the Internet, and discusses securing design patterns for distributed systems. The next section focuses on security in mobile computing and wireless networks. After a section on grid computing security, the book presents an overview of security solutions for pervasive healthcare systems and surveys wireless sensor network security

Gestion unifiée et dynamique de la sécurité : un cadriciel dirigé par les situations

Les systèmes de gestion de la sécurité (SGS) font le lien entre les exigences de sécurité et le domaine d'application technique. D'un côté, le SGS doit permettre à l'administrateur sécurité de traduire les exigences de sécurité en configurations de sécurité (appelé ici le processus de déploiement). De l'autre, il doit lui fournir des mécanismes de supervision (tels que des SIEM, IDS, fichiers de logs, etc.) afin de vérifier que l'état courant du système est toujours conforme aux exigences de sécurité (appelé ici processus de supervision). Aujourd'hui, garantir que les exigences de sécurité sont respectées nécessite une intervention humaine. En effet, les processus de déploiement et de supervision ne sont pas reliés entre eux. Ainsi, les SGS ne peuvent garantir que les exigences de sécurité sont toujours respectées lorsque le comportement du système change. Dans le cadre du projet européen PREDYKOT, nous avons tenté de boucler la boucle de gestion en intégrant les informations sur le changement de comportement du système et en les injectant dans le processus de déploiement. Cela permet de faire appliquer des mesures de sécurité dynamiques en fonction des changements de comportement du système. Toutefois, il existe diverses approches pour exprimer et mettre en œuvre des politiques de sécurité. Chaque solution de gestion est dédiée à des problématiques de gestion des autorisations ou à celles des configurations de sécurité. Chaque solution fournit son propre langage de politique, son propre modèle architectural et son propre protocole de gestion. Or, il est nécessaire de gérer à la fois les autorisations et les configurations de sécurité de manière unifiée. Notre contribution porte principalement sur trois points : Le retour d'information de supervision : Le processus de supervision capture le comportement dynamique du système au travers d'évènements. Chaque évènement transporte peu de sens. Nous proposons de considérer non pas les évènements individuellement mais de les agréger pour former des situations afin d'amener plus de sémantique sur l'état du système. Nous utilisons ce concept pour relier les exigences de sécurité, les changements dans le système et les politiques de sécurité à appliquer. Un nouvel agent, appelé gestionnaire de situations, est responsable de la gestion du cycle de vie des situations (début et fin de situation, etc.) Nous avons implanté cet agent grâce à la technologie de traitement des évènements complexes. Expression de la politique : Nous proposons d'utiliser le concept de situation comme élément central pour exprimer des politiques de sécurité dynamiques. Les décisions de sécurité peuvent être alors automatiquement dirigées par les situations sans avoir besoin de changer la règle courante. Nous appliquons l'approche de contrôle d'accès à base d'attributs pour spécifier nos politiques. Cette approche orientée par les situations facilite l'écriture des règles de sécurité mais aussi leur compréhension. De plus, ces politiques étant moins techniques, elles sont plus proches des besoins métiers. L'architecture de gestion : Nous présentons une architecture de gestion orientée événement qui supporte la mise en œuvre de politiques de sécurité dirigées par les situations. Considérer les messages de gestion en terme d'évènements, nous permet d'être indépendant de tout protocole de gestion. En conséquence, notre architecture couvre de manière unifiée les approches de gestion des autorisations comme des configurations (obligations) selon les modèles de contrôle de politiques en externalisation comme en approvisionnement. De plus, les agents de gestion sont adaptables et peuvent être dynamiquement améliorés avec de nouvelles fonctionnalités de gestion si besoin. Notre cadriciel a été complètement implanté et est conforme au standard XACMLv3 d'OASIS. Enfin, nous avons évalué la généricité de notre approche à travers quatre scénarii.A Security Management System (SMS) connects security requirements to the technical application domain. On the one hand, an SMS must allow the security administrator/officer to translate the security requirements into security configurations that is known as the enforcement process. On the other hand, it must supply the administrator/officer with monitoring features (SIEM, IDS, log files, etc.) to verify that the environments' changes do not affect the compliance to the predefined security requirements known as the monitoring process. Nowadays, guarantying security objectives requires a human intervention. Therefore, the SMS enforcement process is disconnected from the monitoring process. Thus, an SMS cannot dynamically guarantee that security requirements are still satisfied when environment behavior changings are observed. As part of the European project PREDYKOT, we have worked on closing the management loop by establishing a feedback on the dynamic behavior, captured from the environment, to impact the enforcement process. As a result, expressing and applying a dynamic security policy will be possible. However, many policy expression and enforcement approaches exist currently. Each security management solution is dedicated to some specific issues related to authorization or to system/network management. Each solution provides a specific policy language, an architectural model and a management protocol. Nevertheless, closing the management loop implies managing both authorizations and system/network configurations in a unified framework. Our contribution tackles the following three main issues: Feedback: The monitoring process captures the highly dynamics of the behavior through events. However, each event is not semantically associated with other events. We propose to get more semantics about behavior's changings thus introducing the concept of "situation" to be dealt with in security management applications. This concept aggregates events and links relevant security requirements, relevant behavior changes, and relevant policy rules. A new management agent, called the situation manager, has been added. The latter is responsible for the management process of the situations lifecycle (situation beginning and ending, etc.). We implement this software module using the complex event processing technology. Policy Expression: We propose to specify dynamic security policies oriented by situations. By doing so, the expression of the security policy rules becomes simpler to understand, easier to write and closer to the business and security needs. Hence, each relevant situation orients automatically the policy evaluation process towards a new dynamic decision that doesn't require updating the policy rules. We apply the attribute-based expression approach because of its ability to represent everything through attribute terms, which is a flexible way to express our dynamic policy rules. Enforcement Architecture: we propose a unified and adaptive architecture that supports situations-oriented policies enforcement. We choose to build an event-driven architecture. Exchanging management messages in terms of events allows our architecture to be independent from the management protocols. Thus, it covers in a unified way authorizations as well as configurations management approaches considering both provisioning and outsourcing policy control models. In addition, management agents are adaptable and can be upgraded dynamically with new management functionalities. Our framework has been implemented and is compliant with the OASIS XACMLv3 standard. Finally, we evaluated our contributed according to four different scenarios to prove its generic nature

An investigation of issues of privacy, anonymity and multi-factor authentication in an open environment

This thesis performs an investigation into issues concerning the broad area ofIdentity and Access Management, with a focus on open environments. Through literature research the issues of privacy, anonymity and access control are identified. The issue of privacy is an inherent problem due to the nature of the digital network environment. Information can be duplicated and modified regardless of the wishes and intentions ofthe owner of that information unless proper measures are taken to secure the environment. Once information is published or divulged on the network, there is very little way of controlling the subsequent usage of that information. To address this issue a model for privacy is presented that follows the user centric paradigm of meta-identity. The lack of anonymity, where security measures can be thwarted through the observation of the environment, is a concern for users and systems. By an attacker observing the communication channel and monitoring the interactions between users and systems over a long enough period of time, it is possible to infer knowledge about the users and systems. This knowledge is used to build an identity profile of potential victims to be used in subsequent attacks. To address the problem, mechanisms for providing an acceptable level of anonymity while maintaining adequate accountability (from a legal standpoint) are explored. In terms of access control, the inherent weakness of single factor authentication mechanisms is discussed. The typical mechanism is the user-name and password pair, which provides a single point of failure. By increasing the factors used in authentication, the amount of work required to compromise the system increases non-linearly. Within an open network, several aspects hinder wide scale adoption and use of multi-factor authentication schemes, such as token management and the impact on usability. The framework is developed from a Utopian point of view, with the aim of being applicable to many situations as opposed to a single specific domain. The framework incorporates multi-factor authentication over multiple paths using mobile phones and GSM networks, and explores the usefulness of such an approach. The models are in tum analysed, providing a discussion into the assumptions made and the problems faced by each model.Adobe Acrobat Pro 9.5.1Adobe Acrobat 9.51 Paper Capture Plug-i

Anonymity and trust in the electronic world

Privacy has never been an explicit goal of authorization mechanisms. The traditional approach to authorisation relies on strong authentication of a stable identity using long term credentials. Audit is then linked to authorization via the same identity. Such an approach compels users to enter into a trust relationship with large parts of the system infrastructure, including entities in remote domains. In this dissertation we advance the view that this type of compulsive trust relationship is unnecessary and can have undesirable consequences. We examine in some detail the consequences which such undesirable trust relationships can have on individual privacy, and investigate the extent to which taking a unified approach to trust and anonymity can actually provide useful leverage to address threats to privacy without compromising the principal goals of authentication and audit. We conclude that many applications would benefit from mechanisms which enabled them to make authorization decisions without using long-term credentials. We next propose specific mechanisms to achieve this, introducing a novel notion of a short-lived electronic identity, which we call a surrogate. This approach allows a localisation of trust and entities are not compelled to transitively trust other entities in remote domains. In particular, resolution of stable identities needs only ever to be done locally to the entity named. Our surrogates allow delegation, enable role-based access control policies to be enforced across multiple domains, and permit the use of non-anonymous payment mechanisms, all without compromising the privacy of a user. The localisation of trust resulting from the approach proposed in this dissertation also has the potential to allow clients to control the risks to which they are exposed by bearing the cost of relevant countermeasures themselves, rather than forcing clients to trust the system infrastructure to protect them and to bear an equal share of the cost of all countermeasures whether or not effective for them. This consideration means that our surrogate-based approach and mechanisms are of interest even in Kerberos-like scenarios where anonymity is not a requirement, but the remote authentication mechanism is untrustworthy

Intrusion detection and response model for mobile ad hoc networks.

This dissertation presents a research whose objective is to design and develop an intrusion detection and response model for Mobile Ad hoc NETworks (MANET). Mobile ad hoc networks are infrastructure-free, pervasive and ubiquitous in nature, without any centralized authority. These unique MANET characteristics present several changes to secure them. The proposed security model is called the Intrusion Detection and Response for Mobile Ad hoc Networks (IDRMAN). The goal of the proposed model is to provide a security framework that will detect various attacks and take appropriate measures to control the attack automatically. This model is based on identifying critical system parameters of a MANET that are affected by various types of attacks, and continuously monitoring the values of these parameters to detect and respond to attacks. This dissertation explains the design and development of the detection framework and the response framework of the IDRMAN. The main aspects of the detection framework are data mining using CART to identify attack sensitive network parameters from the wealth of raw network data, statistical processing using six sigma to identify the thresholds for the attack sensitive parameters and quantification of the MANET node state through a measure called the Threat Index (TI) using fuzzy logic methodology. The main aspects of the response framework are intruder identification and intruder isolation through response action plans. The effectiveness of the detection and response framework is mathematically analyzed using probability techniques. The detection framework is also evaluated by performance comparison experiments with related models, and through performance evaluation experiments from scalability perspective. Performance metrics used for assessing the detection aspect of the proposed model are detection rate and false positive rate at different node mobility speed. Performance evaluation experiments for scalability are with respect to the size of the MANET, where more and more mobile nodes are added into the MANET at varied mobility speed. The results of both the mathematical analysis and the performance evaluation experiments demonstrate that the IDRMAN model is an effective and viable security model for MANET