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ARTSY : A Reproduction Transaction SystemBjörk, Mårten, Max, Sofia January 2003 (has links)
<p>A Transaction Reproduction System (ARTSY) is a distributed system that enables secure transactions and reproductions of digital content over an insecure network. A field of application is reproductions of visual arts: A print workshop could for example use ARTSY to print a digital image that is located at a remote museum. The purpose of this master thesis project was to propose a specification for ARTSY and to show that it is technically feasible to implement it. </p><p>An analysis of the security threats in the ARTSY context was performed and a security model was developed. The security model was approved by a leading computer security expert. The security mechanisms that were chosen for the model were: Asymmetric cryptology, digital signatures, symmetric cryptology and a public key registry. A Software Requirements Specification was developed. It contains extra directives for image reproduction systems but it is possible to use it for an arbitrary type of reproduction system. A prototype of ARTSY was implemented using the Java programming language. The prototype uses XML to manage information and Java RMI to enable remote communication between its components. It was built as a platform independent system and it has been tested and proven to be operational on the Sun Solaris platform as well as the Win32 platform.</p>
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ARTSY : A Reproduction Transaction SystemBjörk, Mårten, Max, Sofia January 2003 (has links)
A Transaction Reproduction System (ARTSY) is a distributed system that enables secure transactions and reproductions of digital content over an insecure network. A field of application is reproductions of visual arts: A print workshop could for example use ARTSY to print a digital image that is located at a remote museum. The purpose of this master thesis project was to propose a specification for ARTSY and to show that it is technically feasible to implement it. An analysis of the security threats in the ARTSY context was performed and a security model was developed. The security model was approved by a leading computer security expert. The security mechanisms that were chosen for the model were: Asymmetric cryptology, digital signatures, symmetric cryptology and a public key registry. A Software Requirements Specification was developed. It contains extra directives for image reproduction systems but it is possible to use it for an arbitrary type of reproduction system. A prototype of ARTSY was implemented using the Java programming language. The prototype uses XML to manage information and Java RMI to enable remote communication between its components. It was built as a platform independent system and it has been tested and proven to be operational on the Sun Solaris platform as well as the Win32 platform.
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Security Schemes for Wireless Sensor Networks with Mobile SinkRasheed, Amar Adnan 2010 May 1900 (has links)
Mobile sinks are vital in many wireless sensor applications for efficient data collection,
data querying, and localized sensor reprogramming. Mobile sinks prolong the lifetime of
a sensor network. However, when sensor networks with mobile sinks are deployed in a
hostile environment, security became a critical issue. They become exposed to varieties
of malicious attacks. Thus, anti threats schemes and security services, such as mobile
sink?s authentication and pairwise key establishment, are essential components for the
secure operation of such networks.
Due to the sensors, limited resources designing efficient security schemes with
low communication overhead to secure communication links between sensors and MS
(Mobile Sink) is not a trivial task. In addition to the sensors limited resources, sink mobility
required frequent exchange of cryptography information between the sensors and
MS each time the MS updates its location which imposes extra communication overhead
on the sensors.
In this dissertation, we consider a number of security schemes for WSN (wireless
sensor network) with MS. The schemes offer high network?s resiliency and low communication
overhead against nodes capture, MS replication and wormhole attacks.
We propose two schemes based on the polynomial pool scheme for tolerating
nodes capture: the probabilistic generation key pre-distribution scheme combined with
polynomial pool scheme, and the Q-composite generation key scheme combined with
polynomial pool scheme. The schemes ensure low communication overhead and high
resiliency.
For anti MS replication attack scheme, we propose the multiple polynomial
pools scheme that provide much higher resiliency to MS replication attack as compared
to the single polynomial pool approach.
Furthermore, to improve the network resiliency against wormhole attack, two defensive
mechanisms were developed according to the MS mobility type. In the first
technique, MS uses controlled mobility. We investigate the problem of using a single
authentication code by sensors network to verify the source of MS beacons, and then we
develop a defensive approach that divide the sensor network into different authentication
code?s grids. In the second technique, random mobility is used by MS. We explore the
use of different communication channels available in the sensor hardware combined with
polynomial pool scheme.
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Secure communications for critical infrastructure control systemsDawson, Robert Edward January 2008 (has links)
In March 2000, 1 million litres of raw sewage was released into the water system of Maroochy Shire on Queensland’s sunshine coast. This environmental disaster was caused by a disgruntled ex-contractor using a radio transmitter to illicitly access the electronically controlled pumps in the control system. In 2007 CNN screened video footage of an experimental attack against a electrical generator. The attack caused the generator to shake and smoke, visually showing the damage caused by cyber attack. These attacks highlight the importance of securing the control systems which our critical infrastructures depend on. This thesis addresses securing control systems, focusing on securing the communications for supervisory control and data acquisition (SCADA) systems. We review the architectures of SCADA systems and produce a list of the system constraints that relate to securing these systems. With these constraints in mind, we survey both the existing work in information and SCADA security, observing the need to investigate further the problem of secure communications for SCADA systems. We then present risk modelling techniques, and model the risk in a simple SCADA system, using the ISM, a software tool for modelling information security risk. In modelling the risk, we verify the hypothesis that securing the communications channel is an essential part of an effective security strategy for SCADA systems. After looking at risk modelling, and establishing the value of securing communications, we move on to key management for SCADA systems. Appropriate key management techniques are a crucial part of secure communications, and form an important part of the contributions made in this work. We present a key management protocol that has been designed to run under the constraints specific to SCADA systems. A reductionist security proof is developed for a simplified version of the protocol, showing it is secure in the Bellare Rogaway model.
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Architecture Design and Performance Optimization of Wireless Mesh NetworksHe, Bing 03 August 2010 (has links)
No description available.
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Collaborative security for the internet of thingsBen Saied, Yosra 14 June 2013 (has links) (PDF)
This thesis addresses new security challenges in the Internet of Things (IoT). The current transition from legacy Internet to Internet of Things leads to multiple changes in its communication paradigms. Wireless sensor networks (WSNs) initiated this transition by introducing unattended wireless topologies, mostly made of resource constrained nodes, in which radio spectrum therefore ceased to be the only resource worthy of optimization. Today's Machine to Machine (M2M) and Internet of Things architectures further accentuated this trend, not only by involving wider architectures but also by adding heterogeneity, resource capabilities inconstancy and autonomy to once uniform and deterministic systems. The heterogeneous nature of IoT communications and imbalance in resources capabilities between IoT entities make it challenging to provide the required end-to-end secured connections. Unlike Internet servers, most of IoT components are characterized by low capabilities in terms of both energy and computing resources, and thus, are unable to support complex security schemes. The setup of a secure end-to-end communication channel requires the establishment of a common secret key between both peers, which would be negotiated relying on standard security key exchange protocols such as Transport Layer Security (TLS) Handshake or Internet Key Exchange (IKE). Nevertheless, a direct use of existing key establishment protocols to initiate connections between two IoT entities may be impractical because of the technological gap between them and the resulting inconsistencies in their cryptographic primitives. The issue of adapting existing security protocols to fulfil these new challenges has recently been raised in the international research community but the first proposed solutions failed to satisfy the needs of resource-constrained nodes. In this thesis, we propose novel collaborative approaches for key establishment designed to reduce the requirements of existing security protocols, in order to be supported by resource-constrained devices. We particularly retained TLS handshake, Internet key Exchange and HIP BEX protocols as the best keying candidates fitting the end-to-end security requirements of the IoT. Then we redesigned them so that the constrained peer may delegate its heavy cryptographic load to less constrained nodes in neighbourhood exploiting the spatial heterogeneity of IoT nodes. Formal security verifications and performance analyses were also conducted to ensure the security effectiveness and energy efficiency of our collaborative protocols. However, allowing collaboration between nodes may open the way to a new class of threats, known as internal attacks that conventional cryptographic mechanisms fail to deal with. This introduces the concept of trustworthiness within a collaborative group. The trustworthiness level of a node has to be assessed by a dedicated security mechanism known as a trust management system. This system aims to track nodes behaviours to detect untrustworthy elements and select reliable ones for collaborative services assistance. In turn, a trust management system is instantiated on a collaborative basis, wherein multiple nodes share their evidences about one another's trustworthiness. Based on an extensive analysis of prior trust management systems, we have identified a set of best practices that provided us guidance to design an effective trust management system for our collaborative keying protocols. This effectiveness was assessed by considering how the trust management system could fulfil specific requirements of our proposed approaches for key establishment in the context of the IoT. Performance analysis results show the proper functioning and effectiveness of the proposed system as compared with its counterparts that exist in the literature
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Denial of service : prevention, modelling and detectionSmith, Jason January 2007 (has links)
This research investigates the denial of service problem, in the context of services provided over a network, and contributes to improved techniques for modelling, detecting, and preventing denial of service attacks against these services. While the majority of currently employed denial of service attacks aim to pre-emptively consume the network bandwidth of victims, a significant amount of research effort is already being directed at this problem. This research is instead concerned with addressing the inevitable migration of denial of service attacks up the protocol stack to the application layer. Of particular interest is the denial of service resistance of key establishment protocols (security protocols that enable an initiator and responder to mutually authenticate and establish cryptographic keys for establishing a secure communications channel), which owing to the computationally intensive activities they perform, are particularly vulnerable to attack. Given the preponderance of wireless networking technologies this research hasalso investigated denial of service and its detection in IEEE 802.11 standards based networks. Specific outcomes of this research include: - investigation of the modelling and application of techniques to improve the denial of service resistance of key establishment protocols; - a proposal for enhancements to an existing modelling framework to accommodate coordinated attackers; - design of a new denial of service resistant key establishment protocol for securing signalling messages in next generation, mobile IPv6 networks; - a comprehensive survey of denial of service attacks in IEEE 802.11 wireless networks; discovery of a significant denial of service vulnerability in the clear channel assessment procedure implemented by the medium access control layer of IEEE 802.11 compliant devices; and - design of a novel, specification-based intrusion detection system for detecting denial of service attacks in IEEE 802.11 wireless networks.
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Protocol engineering for protection against denial-of-service attacksTritilanunt, Suratose January 2009 (has links)
Denial-of-service attacks (DoS) and distributed denial-of-service attacks (DDoS) attempt to temporarily disrupt users or computer resources to cause service un- availability to legitimate users in the internetworking system. The most common type of DoS attack occurs when adversaries °ood a large amount of bogus data to interfere or disrupt the service on the server. The attack can be either a single-source attack, which originates at only one host, or a multi-source attack, in which multiple hosts coordinate to °ood a large number of packets to the server. Cryptographic mechanisms in authentication schemes are an example ap- proach to help the server to validate malicious tra±c. Since authentication in key establishment protocols requires the veri¯er to spend some resources before successfully detecting the bogus messages, adversaries might be able to exploit this °aw to mount an attack to overwhelm the server resources. The attacker is able to perform this kind of attack because many key establishment protocols incorporate strong authentication at the beginning phase before they can iden- tify the attacks. This is an example of DoS threats in most key establishment protocols because they have been implemented to support con¯dentiality and data integrity, but do not carefully consider other security objectives, such as availability. The main objective of this research is to design denial-of-service resistant mechanisms in key establishment protocols. In particular, we focus on the design of cryptographic protocols related to key establishment protocols that implement client puzzles to protect the server against resource exhaustion attacks. Another objective is to extend formal analysis techniques to include DoS- resistance. Basically, the formal analysis approach is used not only to analyse and verify the security of a cryptographic scheme carefully but also to help in the design stage of new protocols with a high level of security guarantee. In this research, we focus on an analysis technique of Meadows' cost-based framework, and we implement DoS-resistant model using Coloured Petri Nets. Meadows' cost-based framework is directly proposed to assess denial-of-service vulnerabil- ities in the cryptographic protocols using mathematical proof, while Coloured Petri Nets is used to model and verify the communication protocols using inter- active simulations. In addition, Coloured Petri Nets are able to help the protocol designer to clarify and reduce some inconsistency of the protocol speci¯cation. Therefore, the second objective of this research is to explore vulnerabilities in existing DoS-resistant protocols, as well as extend a formal analysis approach to our new framework for improving DoS-resistance and evaluating the performance of the new proposed mechanism. In summary, the speci¯c outcomes of this research include following results; 1. A taxonomy of denial-of-service resistant strategies and techniques used in key establishment protocols; 2. A critical analysis of existing DoS-resistant key exchange and key estab- lishment protocols; 3. An implementation of Meadows's cost-based framework using Coloured Petri Nets for modelling and evaluating DoS-resistant protocols; and 4. A development of new e±cient and practical DoS-resistant mechanisms to improve the resistance to denial-of-service attacks in key establishment protocols.
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Postkvantové šifry / Post-Quantum CiphersNovosadová, Tatiana January 2021 (has links)
Národný inštitút pre štandardy a technológie (NIST) zahájil proces na získanie, vyhodnotenie a štandardizáciu jedného alebo viacerých kryptografických algoritmov využívajúcich verejný kľúč prostredníctvom verejnej súťaže. Cieľom tejto dimplomovej práce je naštudovať dostupné postkvantové algoritmy pre ustanovenie kľúča, ktoré boli zverejnené v treťom kole tejto súťaže. Po dôkladnej analýze a porovnaní bol jeden zo študovaných algoritmov implementovaný s využitím knižníc dostupných pre daný algoritmus, následne bol program optimalizovaný a zdokumentovaný.
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The art of post-truth in quantum cryptographyZafar Jafarzadeh, Sara 01 1900 (has links)
L’établissement de clé quantique (abrégé QKD en anglais) permet à deux participants distants, Alice et Bob, d’établir une clé secrète commune (mais aléatoire) qui est connue uniquement de ces deux personnes (c’est-à-dire inconnue d’Ève et de tout autre tiers parti). La clé secrète partagée est inconditionnellement privée et peut être plus tard utilisée, par Alice et Bob, pour transmettre des messages en toute confidentialité, par exemple sous la forme d’un masque jetable. Le protocole d’établissement de clé quantique garantit la confidentialité inconditionnelle du message en présence d’un adversaire (Ève) limité uniquement par les lois de la mécanique quantique, et qui ne peut agir sur l’information que se partagent Alice et Bob que lors de son transit à travers des canaux classiques et quantiques. Mais que se passe-t-il lorsque Ève a le pouvoir supplémentaire de contraindre Alice et/ou Bob à révéler toute information, jusqu’alors gardée secrète, générée lors de l’exécution (réussie) du protocole d’établissement de clé quantique (éventuellement suite à la transmission entre Alice et Bob d’un ou plusieurs messages chiffrés classique à l’aide de cette clé), de manière à ce qu’Ève puisse reproduire l’entièreté du protocole et retrouver la clé (et donc aussi le message qu’elle a chiffré) ? Alice et Bob peuvent-ils nier la création de la clé de manière plausible en révélant des informations mensongères pour qu’Ève aboutisse sur une fausse clé ? Les protocoles d’établissement de clé quantiques peuvent-ils tels quels garantir la possibilité du doute raisonnable ? Dans cette thèse, c’est sur cette énigme que nous nous penchons.
Dans le reste de ce document, nous empruntons le point de vue de la théorie de l’information pour analyser la possibilité du doute raisonnable lors de l’application de protocoles d’établissement de clé quantiques. Nous formalisons rigoureusement différents types et degrés de doute raisonnable en fonction de quel participant est contraint de révéler la clé, de ce que l’adversaire peut demander, de la taille de l’ensemble de fausses clés qu’Alice et Bob peuvent prétendre établir, de quand les parties doivent décider de la ou des clés fictives, de quelle est la tolérance d’Ève aux événements moins probables, et du recours ou non à des hypothèses de calcul.
Nous définissons ensuite rigoureusement une classe générale de protocoles d’établissement de clé quantiques, basée sur un canal quantique presque parfait, et prouvons que tout protocole d’établissement de clé quantique appartenant à cette classe satisfait la définition la plus générale de doute raisonnable : à savoir, le doute raisonnable universel. Nous en fournissons quelques exemples. Ensuite, nous proposons un protocole hybride selon lequel tout protocole
QKD peut être au plus existentiellement déniable. De plus, nous définissons une vaste classe de protocoles d’établissement de clé quantiques, que nous appelons préparation et mesure, et prouvons l’impossibilité d’instiller lors de ceux-ci tout degré de doute raisonnable.
Ensuite, nous proposons une variante du protocole, que nous appelons préparation et mesure floues qui offre un certain niveau de doute raisonnable lorsque Ève est juste. Par la suite, nous proposons un protocole hybride en vertu duquel tout protocole d’établissement de clé quantique ne peut offrir au mieux que l’option de doute raisonnable existentiel. Finalement, nous proposons une variante du protocole, que nous appelons mono-déniable qui est seulement Alice déniable ou Bob déniable (mais pas les deux). / Quantum Key Establishment (QKD) enables two distant parties Alice and Bob to establish a common random secret key known only to the two of them (i.e., unknown to Eve and anyone else). The common secret key is information-theoretically secure. Later, Alice and Bob may use this key to transmit messages securely, for example as a one-time pad. The QKD protocol guarantees the confidentiality of the key from an information-theoretic perspective against an adversary Eve who is only limited by the laws of quantum theory and can act only on the signals as they pass through the classical and quantum channels. But what if Eve has the extra power to coerce Alice and/or Bob after the successful execution of the QKD protocol forcing either both or only one of them to reveal all their private information (possibly also after one or several (classical) ciphertexts encrypted with that key have been transmitted between Alice and Bob) then Eve could go through the protocol and obtain the key (hence also the message)? Can Alice and Bob deny establishment of the key plausibly by revealing fake private information and hence also a fake key? Do QKD protocols guarantee deniability for free in this case? In this Thesis, we investigate this conundrum.
In the rest of this document, we take an information-theoretic perspective on deniability in quantum key establishment protocols. We rigorously formalize different levels and flavours of deniability depending on which party is coerced, what the adversary may ask, what is the size of the fake set that surreptitious parties can pretend to be established, when the parties should decide on the fake key(s), and what is the coercer’s tolerance to less likely events and possibly also computational assumptions.
We then rigorously define a general class of QKD protocols, based on an almost-perfect quantum channel, and prove that any QKD protocol that belongs to this class satisfies the most general flavour of deniability, i.e.,universal deniability. Moreover, we define a broad class of QKD protocols, which we call prepare-and-measure, and prove that these protocols are not deniable in any level or flavour.
Moreover, we define a class of QKD protocols, which we refer to as fuzzy prepare-andmeasure, that provides a certain level of deniability conditioned on Eve being fair. Furthermore, we propose a hybrid protocol under which any QKD protocol can be at most existentially deniable. Finally, we define a class of QKD protocols, which we refer to as mono-deniable, which is either Alice or Bob (but not both) deniable.
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