Applied cryptography (2nd ed.): protocols, algorithms, and source code in C
Applied cryptography (2nd ed.): protocols, algorithms, and source code in C
Fair exchange with a semi-trusted third party (extended abstract)
Proceedings of the 4th ACM conference on Computer and communications security
Journal of Network and Computer Applications
Password authentication with insecure communication
Communications of the ACM
Authentication of signatures using public key encryption
Communications of the ACM
Handbook of Applied Cryptography
Handbook of Applied Cryptography
IEEE Micro
Electronic Payments of Small Amounts
Proceedings of the International Workshop on Security Protocols
ICMCS '95 Proceedings of the International Conference on Multimedia Computing and Systems
A fair non-repudiation protocol
SP '96 Proceedings of the 1996 IEEE Symposium on Security and Privacy
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With the development of high speed computer networks, video service on the Web has huge market potential in that the video service can be provided to subscribers with greater time and schedule flexibility compared to the current cable TV system. Under the pay-perview (PPV) scheme, subscribers only need to pay for the programs that they have watched. A critical issue on PPV service is the capability of settling disputes over PPV service charges. This is especially important in the case that the Internet communication could be interrupted (by accident or deliberately) in the middle of a viewing session. This paper proposes a fair PPV billing protocol for web-based video service. With this protocol, a video service will be divided into small units, and a subscriber needs to submit cryptographic evidence which enables fair billing based on the number of units being provided in a viewing session. In addition, by the establishment of a one-way sequential link, the validity of evidence is maintained efficiently without any involvement of trusted third parties. Our scheme is light-weighted in terms of the storage requirement and computation overheads on subscribers, thus subscribers can request PPV service securely with their own smart cards regardless of their physical location.