Synopses & Reviews
Encryption for Digital Content is an area in cryptography that is widely used in commercial productions (e.g., Blu-Ray and HD-DVDs). This book provides a comprehensive mathematical treatment of combinatorial encryption techniques used in digital content distribution systems and related attack models. A complete description of broadcast encryption with various revocation and tracing functionalities is included.
Encryption for Digital Content introduces the subset cover framework (currently used in AACS, Blu-Ray and HD-DVDs,) and tracking/revocation mechanisms in various attack models. Pirate evolution attacks are covered in depth, providing an extensive treatment of the complexity of the revocation problem for multi-receiver (subscriber) encryption mechanisms, as well as the complexity of the traceability problem. This volume also illustrates the manner that attacks affect parameter selection, and how this impacts implementations.
Review
From the reviews: "This book provides several cryptographic mechanisms for protecting digital content. ... With the necessary prerequisites, even readers with no prior knowledge of cryptography can gain a basic understanding of this field. ... each chapter ends with a detailed bibliographic note, which is useful for further study. The book is based in part on Pehlivanoglu's doctoral thesis, which implies that it will provide a state-of-the-art overview of encryption for digital content. ... Overall, I recommend this survey of digital content encryption for cryptographers and professional engineers." (Zheng Gong, ACM Computing Reviews, May, 2011)
Synopsis
Cryptography is an area that traditionally focused on secure communication, authentication and integrity. In recent times though, there is a wealth of novel fine-tuned cryptographic techniques that sprung up as cryptographers focused on the specialised problems that arise in digital content distribution. These include fingerprinting codes, traitor tracing, broadcast encryption and others. This book is an introduction to this new generation of cryptographic mechanisms as well as an attempt to provide a cohesive presentation of these techniques.
Encryption for Digital Content details the subset cover framework (currently used in the AACS encryption of Blu-Ray disks), fingerprinting codes, traitor tracing schemes as well as related security models and attacks. It provides an extensive treatment of the complexity of the revocation problem for multi-receiver (subscriber) encryption mechanisms, as well as the complexity of the traceability problem. Pirate evolution type of attacks are covered in depth. This volume also illustrates the manner that attacks affect parameter selection, and how this impacts implementations. The authors gratefully acknowledge the support of the National Science Foundation under Grant No. 0447808.
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Synopsis
This is a mathematical treatment of combinatorial encryption techniques used in digital content distribution systems and related attack models. It includes a complete description of broadcast encryption with various revocation and tracing functionalities.
Synopsis
Cryptography is an area that traditionally focused on secure communication, authentication and integrity. In recent times though, there is a wealth of novel
Synopsis
Cryptography is an area that traditionally focused on secure communication, authentication and integrity. In recent times though, there is a wealth of novel
Table of Contents
Fingerprinting Codes.- Broadcast Encryption.- Trailor Tracing.- Trace and Revoke Schemes.- Pirate Evolution.- References.- Index