04311nam 22006495 450 991029927190332120230810192532.03-319-67107-310.1007/978-3-319-67107-9(CKB)4100000002892031(MiAaPQ)EBC5358050(DE-He213)978-3-319-67107-9(PPN)225551233(EXLCZ)99410000000289203120180319d2018 u| 0engurcnu||||||||txtrdacontentcrdamediacrrdacarrierModelling and Verification of Secure Exams /by Rosario Giustolisi1st ed. 2018.Cham :Springer International Publishing :Imprint: Springer,2018.1 online resource (144 pages)Information Security and Cryptography,2197-845X3-319-67106-5 Introduction -- Preliminaries and Definitions -- Security Requirements -- The Huszti-Pethő Protocol -- The Remark! Internet-Based Exam -- The WATA Family -- Conclusions.In this book the author introduces a novel approach to securing exam systems. He provides an in-depth understanding, useful for studying the security of exams and similar systems, such as public tenders, personnel selections, project reviews, and conference management systems. After a short chapter that explains the context and objectives of the book, in Chap. 2 the author introduces terminology for exams and the foundations required to formulate their security requirements. He describes the tasks that occur during an exam, taking account of the levels of detail and abstraction of an exam specification and the threats that arise out of the different exam roles. He also presents a taxonomy that classifies exams by types and categories. Chapter 3 contains formal definitions of the authentication, privacy, and verifiability requirements for exams, a framework based on the applied pi-calculus for the specification of authentication and privacy, and a more abstract approach based on set-theory that enables the specification of verifiability. Chapter 4 describes the Huszti-Pethő protocol in detail and proposes a security enhancement. In Chap. 5 the author details Remark!, a protocol for Internet-based exams, discussing its cryptographic building blocks and some security considerations. Chapter 6 focuses on WATA, a family of computer-assisted exams that employ computer assistance while keeping face-to-face testing. The chapter also introduces formal definitions of accountability requirements and details the analysis of a WATA protocol against such definitions. In Chaps. 4, 5, and 6 the author uses the cryptographic protocol verifier ProVerif for the formal analyses. Finally, the author outlines future work in Chap. 7. The book is valuable for researchers and graduate students in the areas of information security, in particular for people engaged with exams or protocols.Information Security and Cryptography,2197-845XData structures (Computer science)Information theoryComputer networksMachine theoryTest-taking skillsInformation technologyManagementData Structures and Information TheoryComputer Communication NetworksFormal Languages and Automata TheoryRevision and ExamComputer Application in Administrative Data ProcessingData structures (Computer science).Information theory.Computer networks.Machine theory.Test-taking skills.Information technologyManagement.Data Structures and Information Theory.Computer Communication Networks.Formal Languages and Automata Theory.Revision and Exam.Computer Application in Administrative Data Processing.005.8Giustolisi Rosarioauthttp://id.loc.gov/vocabulary/relators/aut921503BOOK9910299271903321Modelling and Verification of Secure Exams2067149UNINA