Mobile Authentication with NFC enabled Smartphones

Smartphones are becoming increasingly more deployed and as such new possibilities for utilizing the smartphones many capabilities for public and private use are arising. This project will investigate the possibility of using smartphones as a platform for authentication and access control, using near field communication (NFC). To achieve the necessary security for authentication and access control purposes, cryptographic concepts such as public keys, challenge-response and digital signatures are used. To focus the investigation a case study is performed based on the authentication and access control needs of an educational institutions student ID. To gain a more practical understanding of the challenges mobile authentication encounters, a prototype has successfully been developed on the basis of the investigation. The case study performed in this project argues that NFC as a standalone technology is not yet mature to support the advanced communication required by this case. However, combining NFC with other communication technologies such as Bluetooth has proven to be effective. As a result, a general evaluation has been performed on several aspects of the prototype, such as cost-effectiveness, usability, performance and security to evaluate the viability of mobile authentication

Towards a Low-Cost Remote Memory Attestation for the Smart Grid

In the smart grid, measurement devices may be compromised by adversaries, and their operations could be disrupted by attacks. A number of schemes to efficiently and accurately detect these compromised devices remotely have been proposed. Nonetheless, most of the existing schemes detecting compromised devices depend on the incremental response time in the attestation process, which are sensitive to data transmission delay and lead to high computation and network overhead. To address the issue, in this paper, we propose a low-cost remote memory attestation scheme (LRMA), which can efficiently and accurately detect compromised smart meters considering real-time network delay and achieve low computation and network overhead. In LRMA, the impact of real-time network delay on detecting compromised nodes can be eliminated via investigating the time differences reported from relay nodes. Furthermore, the attestation frequency in LRMA is dynamically adjusted with the compromised probability of each node, and then, the total number of attestations could be reduced while low computation and network overhead can be achieved. Through a combination of extensive theoretical analysis and evaluations, our data demonstrate that our proposed scheme can achieve better detection capacity and lower computation and network overhead in comparison to existing schemes

Privacy Preserving Cryptographic Protocols for Secure Heterogeneous Networks

Disertační práce se zabývá kryptografickými protokoly poskytující ochranu soukromí, které jsou určeny pro zabezpečení komunikačních a informačních systémů tvořících heterogenní sítě. Práce se zaměřuje především na možnosti využití nekonvenčních kryptografických prostředků, které poskytují rozšířené bezpečnostní požadavky, jako je například ochrana soukromí uživatelů komunikačního systému. V práci je stanovena výpočetní náročnost kryptografických a matematických primitiv na různých zařízeních, které se podílí na zabezpečení heterogenní sítě. Hlavní cíle práce se zaměřují na návrh pokročilých kryptografických protokolů poskytujících ochranu soukromí. V práci jsou navrženy celkově tři protokoly, které využívají skupinových podpisů založených na bilineárním párování pro zajištění ochrany soukromí uživatelů. Tyto navržené protokoly zajišťují ochranu soukromí a nepopiratelnost po celou dobu datové komunikace spolu s autentizací a integritou přenášených zpráv. Pro navýšení výkonnosti navržených protokolů je využito optimalizačních technik, např. dávkového ověřování, tak aby protokoly byly praktické i pro heterogenní sítě.The dissertation thesis deals with privacy-preserving cryptographic protocols for secure communication and information systems forming heterogeneous networks. The thesis focuses on the possibilities of using non-conventional cryptographic primitives that provide enhanced security features, such as the protection of user privacy in communication systems. In the dissertation, the performance of cryptographic and mathematic primitives on various devices that participate in the security of heterogeneous networks is evaluated. The main objectives of the thesis focus on the design of advanced privacy-preserving cryptographic protocols. There are three designed protocols which use pairing-based group signatures to ensure user privacy. These proposals ensure the protection of user privacy together with the authentication, integrity and non-repudiation of transmitted messages during communication. The protocols employ the optimization techniques such as batch verification to increase their performance and become more practical in heterogeneous networks.

Eesti elektrooniline ID-kaart ja selle turvaväljakutsed

Eesti elektrooniline isikutunnistust (ID-kaart) on üle 18 aasta pakkunud turvalist elektroonilist identiteeti Eesti kodanikele. Avaliku võtme krüptograafia ja kaardile talletatud privaatvõti võimaldavad ID-kaardi omanikel juurde pääseda e-teenustele, anda juriidilist jõudu omavaid digiallkirju ning elektrooniliselt hääletada. Käesolevas töös uuritakse põhjalikult Eesti ID-kaarti ning sellega seotud turvaväljakutseid. Me kirjeldame Eesti ID-kaarti ja selle ökosüsteemi, seotud osapooli ja protsesse, ID-kaardi elektroonilist baasfunktsionaalsust, seotud tehnilisi ja juriidilisi kontseptsioone ning muid seotud küsimusi. Me tutvustame kõiki kasutatud kiipkaardiplatforme ja nende abil väljastatud isikutunnistuste tüüpe. Iga platformi kohta esitame me detailse analüüsi kasutatava asümmeetrilise krüptograafia funktsionaalsusest ning kirjeldame ja analüüsime ID-kaardi kauguuendamise lahendusi. Lisaks esitame me süstemaatilise uurimuse ID-kaardiga seotud turvaintsidentidest ning muudest sarnastest probleemidest läbi aastate. Me kirjeldame probleemide tehnilist olemust, kasutatud leevendusmeetmeid ning kajastust ajakirjanduses. Käesoleva uurimustöö käigus avastati mitmeid varem teadmata olevaid turvaprobleeme ning teavitati nendest seotud osapooli. Käesolev töö põhineb avalikult kättesaadaval dokumentatsioonil, kogutud ID-kaartide sertifikaatide andmebaasil, ajakirjandusel,otsesuhtlusel seotud osapooltega ning töö autori analüüsil ja eksperimentidel.For more than 18 years, the Estonian electronic identity card (ID card) has provided a secure electronic identity for Estonian residents. The public-key cryptography and private keys stored on the card enable Estonian ID card holders to access e-services, give legally binding digital signatures and even cast an i-vote in national elections. This work provides a comprehensive study on the Estonian ID card and its security challenges. We introduce the Estonian ID card and its ecosystem by describing the involved parties and processes, the core electronic functionality of the ID card, related technical and legal concepts, and the related issues. We describe the ID card smart card chip platforms used over the years and the identity document types that have been issued using these platforms. We present a detailed analysis of the asymmetric cryptography functionality provided by each ID card platform and present a description and security analysis of the ID card remote update solutions that have been provided for each ID card platform. As yet another contribution of this work, we present a systematic study of security incidents and similar issues the Estonian ID card has experienced over the years. We describe the technical nature of the issue, mitigation measures applied and the reflections on the media. In the course of this research, several previously unknown security issues were discovered and reported to the involved parties. The research has been based on publicly available documentation, collection of ID card certificates in circulation, information reflected in media, information from the involved parties, and our own analysis and experiments performed in the field.https://www.ester.ee/record=b541416

Recent Application in Biometrics

In the recent years, a number of recognition and authentication systems based on biometric measurements have been proposed. Algorithms and sensors have been developed to acquire and process many different biometric traits. Moreover, the biometric technology is being used in novel ways, with potential commercial and practical implications to our daily activities. The key objective of the book is to provide a collection of comprehensive references on some recent theoretical development as well as novel applications in biometrics. The topics covered in this book reflect well both aspects of development. They include biometric sample quality, privacy preserving and cancellable biometrics, contactless biometrics, novel and unconventional biometrics, and the technical challenges in implementing the technology in portable devices. The book consists of 15 chapters. It is divided into four sections, namely, biometric applications on mobile platforms, cancelable biometrics, biometric encryption, and other applications. The book was reviewed by editors Dr. Jucheng Yang and Dr. Norman Poh. We deeply appreciate the efforts of our guest editors: Dr. Girija Chetty, Dr. Loris Nanni, Dr. Jianjiang Feng, Dr. Dongsun Park and Dr. Sook Yoon, as well as a number of anonymous reviewers

Evaluation and Improvement of Internet Voting Schemes Based on Legally-Founded Security Requirements

In recent years, several nations and private associations have introduced Internet voting as additional means to conduct elections. To date, a variety of voting schemes to conduct Internet-based elections have been constructed, both from the scientific community and industry. Because of its fundamental importance to democratic societies, Internet voting – as any other voting method – is bound to high legal standards, particularly imposing security requirements on the voting method. However, these legal standards, and resultant derived security requirements, partially oppose each other. As a consequence, Internet voting schemes cannot enforce these legally-founded security requirements to their full extent, but rather build upon specific assumptions. The criticality of these assumptions depends on the target election setting, particularly the adversary expected within that setting. Given the lack of an election-specific evaluation framework for these assumptions, or more generally Internet voting schemes, the adequacy of Internet voting schemes for specific elections cannot readily be determined. Hence, selecting the Internet voting scheme that satisfies legally-founded security requirements within a specific election setting in the most appropriate manner, is a challenging task. To support election officials in the selection process, the first goal of this dissertation is the construction of a evaluation framework for Internet voting schemes based on legally-founded security requirements. Therefore, on the foundation of previous interdisciplinary research, legally-founded security requirements for Internet voting schemes are derived. To provide election officials with improved decision alternatives, the second goal of this dissertation is the improvement of two established Internet voting schemes with regard to legally-founded security requirements, namely the Polyas Internet voting scheme and the Estonian Internet voting scheme. Our research results in five (partially opposing) security requirements for Internet voting schemes. On the basis of these security requirements, we construct a capability-based risk assessment approach for the security evaluation of Internet voting schemes in specific election settings. The evaluation of the Polyas scheme reveals the fact that compromised voting devices can alter votes undetectably. Considering surrounding circumstances, we eliminate this shortcoming by incorporating out of band codes to acknowledge voters’ votes. It turns out that in the Estonian scheme, four out of five security requirements rely on the correct behaviour of voting devices. We improve the Estonian scheme in that regard by incorporating out of band voting and acknowledgment codes. Thereby, we maintain four out of five security requirements against adversaries capable of compromising voting devices