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Privately and Publicly Verifiable Computing Techniques : A Survey /

This book presents the first comprehensive overview of various verifiable computing techniques, which allow the computation of a function on outsourced data to be delegated to a server. It provides a brief description of all the approaches and highlights the properties each solution achieves. Furthe...

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Bibliographic Details
Main Authors: Demirel, Denise (Author)
Corporate Authors: SpringerLink (Online service)
Group Author: Schabhuser, Lucas; Buchmann, Johannes
Published: Springer International Publishing : Imprint: Springer,
Publisher Address: Cham :
Publication Dates: 2017.
Literature type: eBook
Language: English
Series: SpringerBriefs in Computer Science,
Subjects:
Computer science.
Computer software > Reusability.
Data structures (Computer science)
Computer science > Mathematics.
Discrete mathematics.
Data Structures, Cryptology and Information Theory.
Mathematics of Computing.
Performance and Reliability.
Online Access: http://dx.doi.org/10.1007/978-3-319-53798-6
Summary: This book presents the first comprehensive overview of various verifiable computing techniques, which allow the computation of a function on outsourced data to be delegated to a server. It provides a brief description of all the approaches and highlights the properties each solution achieves. Further, it analyzes the level of security provided, how efficient the verification process is, who can act as a verifier and check the correctness of the result, which function class the verifiable computing scheme supports, and whether privacy with respect to t he input and/or output data is provided. On the basis of this analysis the authors then compare the different approaches and outline possible directions for future work. The book is of interest to anyone wanting to understand the state of the art of this research field.
Carrier Form: 1 online resource(XII,332pages).
ISBN: 9783319537986
Index Number: QA76
CLC: TP311.12
Contents: Introduction -- Preliminaries -- Proof Based Verifiable Computing -- Verifiable Computing from Fully Homomorphic Encryption -- Homomorphic Authenticators -- Verifiable Computing Frameworks from Functional Encryption and Functional Signatures -- Verifiable Computing for Specific Applications -- Analysis of the State of the Art -- Conclusion.

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