Paper Info
Title
Fidelity-controlled robustness enhancement of blind watermarking schemes using evolutionary computational techniques
Abstract
Designing optimal watermarking schemes is inherently an interesting and difficult problem since the three most important performance requirements of digital watermarking – fidelity, robustness and watermark capacity – are conflicting with each other. Nowadays, most watermarking schemes hide the watermark information in a heuristic manner, that is, watermarks are often embedded according to predefined rules and empirical parameter settings. Therefore, the performance of digital watermarking can only be passively decided and evaluated, rather than being actively adopted as additional clues helpful to achieve better performance in embedding modules. In this paper, watermark embedding is simulated as an optimization procedure in which optimal embedded results are obtained by using important evolutionary computation techniques – the genetic algorithms. Under the condition that fixed amount of watermark bits are hidden, in this work, the minimal fidelity requirement of embedded content can be specified by users in advance and guaranteed throughout the embedding procedure. Furthermore, concrete measures of the robustness against certain attacks are treated as the objective functions that guide the optimizing procedure. In other words, a blind watermarking scheme with application-specific data capacity, guaranteed fidelity, and theoretically optimal robustness against certain types of attacks is proposed. Experimental results clearly show that the proposed scheme possesses great performance improvements over the original one. More importantly, the proposed enhancing approach has many desired architectural characteristics, such as blind detection, asymmetric embedding/detection overheads, as well as embedding and detection in different domains.
Year
DOI
Venue
2004
10.1007/978-3-540-31805-7_23
IWDW
Keywords
Field
DocType
optimal watermarking scheme,asymmetric embedding,watermark embedding,great performance improvement,digital watermarking,watermarking scheme,embedding module,embedding procedure,evolutionary computational technique,blind watermarking scheme,fidelity-controlled robustness enhancement,better performance,evolutionary computing,genetic algorithm,design optimization,objective function,digital watermark
Digital watermarking,Fidelity,Heuristic,Embedding,Computer science,Evolutionary computation,Watermark,Robustness (computer science),Theoretical computer science,Genetic algorithm
Conference
Volume
ISSN
ISBN
3304
0302-9743
3-540-24839-0
Citations 
PageRank 
References 
2
0.45
4
Authors
3
Name
Order
Citations
PageRank
Chun-Hsiang Huang113812.05
Chih-hao Shen21476.42
Ja-ling Wu31569168.11