Engineering Secure Two-Party Computation Protocols: Design, Optimization, and Applications of Efficient Secure Function Evaluation
Om den här e-boken
The author offers an extensive overview of the most practical and efficient modern techniques used in the design and implementation of secure computation and related protocols. After an introduction that sets secure computation in its larger context of other privacy-enhancing technologies such as secure channels and trusted computing, he covers the basics of practically efficient secure function evaluation, circuit optimizations and constructions, hardware-assisted garbled circuit protocols, and the modular design of efficient SFE protocols.
The goal of the author's research is to use algorithm engineering methods to engineer efficient secure protocols, both as a generic tool and for solving practical applications, and he achieves an excellent balance between the theory and applicability. The book is essential for researchers, students and practitioners in the area of applied cryptography and information security who aim to construct practical cryptographic protocols for privacy-preserving real-world applications.Om författaren
Dr.-Ing. Thomas Schneider heads the Engineering Cryptographic Protocols group at the European Center for Security and Privacy by Design (EC-SPRIDE) at Technische Universität Darmstadt, Germany. He received his PhD from Ruhr-Universität Bochum, Germany. His research interests cover applied cryptography and information security, and in particular secure computation and related protocols.
