Analysis of a buyer-seller watermarking protocol for trustworthy purchasing of digital contents

In ubiquitous environments where human users get to access diverse kinds of (often multimedia enabled) services irrespective of where they are, the issue of security is a major concern. Security in this setting encompasses both in the interest of the human users as well as their information and objects that they own. A typical kind of transaction interaction among users and/or machines in these environments is that of exchanging digital objects via purchases and/or ownership transfers, e.g. someone buying a song from iTunes via his iPhone, or downloading either bought or rented movies onto a portable DVD player. Here, there is a need to provide trustworthy protection of the rights of both parties; i.e. the seller’s copyright needs to be protected against piracy, while on the other hand it has been highlighted in literature the need to protect innocent buyers from being framed. Indeed, if either party cannot be assured that his rights are protected when he is involved in transactions within such environments, he would shy away and instead prefer for instance the more conventional non-digital means of buying and selling. And therefore without active participation from human users and object owners it is difficult to fully kick off the actual realization of intelligent environments. Zhang et al. recently proposed a buyer–seller watermarking protocol without a trusted third party based on secret sharing. While it is a nice idea to eliminate the need of a trusted third party by distributing secret shares between the buyer and the seller such that neither party has knowledge of the fingerprint embedded in a content, we show that it is possible for a buyer to remove his part of the fingerprint from the content he bought. This directly disproves the piracy tracing property claimed by the protocol. In fact, since piracy tracing is one of the earliest security applications of watermarking schemes, it raises doubts as to the soundness of the design of this protocol

An enhanced watermarking protocol for electronic copyright management

In Piva et al\u27s watermarking scheme for electronic copyright management system (ECMS), authors were considered trusted potentially, so a dishonest author could authorize more than one distributor to sell her one document, named &quot;One Document to Multi-distributor&quot; problem, which would damage the benefit of the distributors. To resolve the problem, in this paper, we propose an enhanced watermarking protocol based on Piva et al\u27s scheme by introducing document nature code (DNC) and register records table. In addition, our protocol offers the distributor an efficient means to verify his right to an authorized digital document.<br /

Secure buyer - seller watermarking protocol

In the existing watermarking protocols, a trusted third party (TTP) is introduced to guarantee that a protocol is fair to both the seller and buyer in a digital content transaction. However, the TTP decreases the security and affects the protocol implementation. To address this issue, in this article a secure buyer&ndash;seller watermarking protocol without the assistance of a TTP is proposed in which there are only two participants, a seller and a buyer. Based on the idea of sharing a secret, a watermark embedded in digital content to trace piracy is composed of two pieces of secret information, one produced by the seller and one by the buyer. Since neither knows the exact watermark, the buyer cannot remove the watermark from watermarked digital content, and at the same time the seller cannot fabricate piracy to frame an innocent buyer. In other words, the proposed protocol can trace piracy and protect the customer&rsquo;s rights. In addition, because no third party is introduced into the proposed protocol, the problem of a seller (or a buyer) colluding with a third party to cheat the buyer (or the seller), namely, the conspiracy problem, can be avoided.<br /

(In)Security of an Efficient Fingerprinting Scheme with Symmetric and Commutative Encryption of IWDW 2005

We analyze the security of a fingerprinting scheme proposed at IWDW 2005. We show two results, namely that this scheme (1) does riot provide seller security: a dishonest buyer can repudiate the fact that, he redistributed a content, and (2) does riot, provide buyer security: a buyer can be framed by a malicious seller

A Lightweight Buyer-Seller Watermarking Protocol

The buyer-seller watermarking protocol enables a seller to successfully identify a traitor from a pirated copy, while preventing the seller from framing an innocent buyer. Based on finite field theory and the homomorphic property of public key cryptosystems such as RSA, several buyer-seller watermarking protocols (N. Memon and P. W. Wong (2001) and C.-L. Lei et al. (2004)) have been proposed previously. However, those protocols require not only large computational power but also substantial network bandwidth. In this paper, we introduce a new buyer-seller protocol that overcomes those weaknesses by managing the watermarks. Compared with the earlier protocols, ours is n times faster in terms of computation, where n is the number of watermark elements, while incurring only O(1/lN) times communication overhead given the finite field parameter lN. In addition, the quality of the watermarked image generated with our method is better, using the same watermark strength

Design and Analysis of Fair Content Tracing Protocols

The work in this thesis examines protocols designed to address the issues of tracing illegal distribution of digital content in a fair manner. In digital content distribution, a client requests content from a distributor, and the distributor sends content to the client. The main concern is misuse of content by the client, such as illegal distribution. As a result, digital watermarking schemes that enable the distributor to trace copies of content and identify the perpetrator were proposed. However, such schemes do not provide a mechanism for the distributor to prove to a third party that a client illegally distributed copies of content. Furthermore, it is possible that the distributor falsely accuses a client as he has total control of the tracing mechanisms. Fair content tracing (FaCT) protocols were thus proposed to allow tracing of content that does not discriminate either the distributor or the client. Many FaCT protocols have been proposed, mostly without an appropriate design framework, and so there is no obvious and systematic way to evaluate them. Therefore, we propose a framework that provides a definition of security and which enables classification of FaCT protocols so that they can be analysed in a systematic manner. We define, based on our framework, four main categories of FaCT protocols and propose new approaches to designing them. The first category is protocols without trusted third parties. As the name suggests, these protocols do not rely on a central trusted party for fair tracing of content. It is difficult to design such a protocol without drawing on extra measures that increase communication and computation costs. We show this is the case by demonstrating flaws in two recent proposals. We also illustrate a possible repair based on relaxing the assumption of trust on the distributor. The second category is protocols with online trusted third parties, where a central online trusted party is deployed. This means a trusted party must always be available during content distribution between the distributor and the client. While the availability of a trusted third party may simplify the design of such protocols, efficiency may suffer due to the need to communicate with this third party. The third category is protocols with offline trusted third parties, where a central offline trusted party is deployed. The difference between the offline and the online trusted party is that the offline trusted party need not be available during content distribution. It only needs to be available during the initial setup and when there is a dispute between the distributor and the client. This reduces the communication requirements compared to using an online trusted party. Using a symmetric-based cryptographic primitive known as Chameleon encryption, we proposed a new approach to designing such protocols. The fourth category is protocols with trusted hardware. Previous protocols proposed in this category have abstracted away from a practical choice of the underlying trusted hardware. We propose new protocols based on a Trusted Platform Module (TPM). Finally, we examine the inclusion of payment in a FaCT protocol, and how adding payment motivates the requirement for fair exchange of buying and selling digital content

Buyer-seller watermarking protocol in digital cinema

Master'sMASTER OF SCIENC

Data Hiding and Its Applications

Data hiding techniques have been widely used to provide copyright protection, data integrity, covert communication, non-repudiation, and authentication, among other applications. In the context of the increased dissemination and distribution of multimedia content over the internet, data hiding methods, such as digital watermarking and steganography, are becoming increasingly relevant in providing multimedia security. The goal of this book is to focus on the improvement of data hiding algorithms and their different applications (both traditional and emerging), bringing together researchers and practitioners from different research fields, including data hiding, signal processing, cryptography, and information theory, among others