Adaptive Robust Blind Watermarking Scheme Improved by Entropy-Based SVM and Optimized Quantum Genetic Algorithm

Adaptive Robust Blind Watermarking Scheme Improved by Entropy-Based SVM and Optimized Quantum Genetic Algorithm

With the intensive study of machine learning in digital watermarking, its ability to balance the robustness and transparency of watermarking technology has attracted researchers’ attention. Therefore, quantum genetic algorithm, which serves as an intelligent optimized scheme combined with biological...

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Main Authors: Jun Zhang, Xiaoyi Zhou, Jilin Yang, Chunjie Cao, Jixin Ma
Format: Article
Language:English
Published: Hindawi Limited 2019-01-01
Series:Mathematical Problems in Engineering
Online Access:http://dx.doi.org/10.1155/2019/7817809
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spelling doaj-085ac8ab88754fe68a6ce2f525d9bab92020-11-25T01:22:05ZengHindawi LimitedMathematical Problems in Engineering1024-123X1563-51472019-01-01201910.1155/2019/78178097817809Adaptive Robust Blind Watermarking Scheme Improved by Entropy-Based SVM and Optimized Quantum Genetic AlgorithmJun Zhang0Xiaoyi Zhou1Jilin Yang2Chunjie Cao3Jixin Ma4School of Computer and Cyberspace Security, Hainan University, Haikou, ChinaSchool of Computer and Cyberspace Security, Hainan University, Haikou, ChinaSchool of Computer and Cyberspace Security, Hainan University, Haikou, ChinaSchool of Computer and Cyberspace Security, Hainan University, Haikou, ChinaSchool of Computing and Mathematical Sciences, University of Greenwich, London, UKWith the intensive study of machine learning in digital watermarking, its ability to balance the robustness and transparency of watermarking technology has attracted researchers’ attention. Therefore, quantum genetic algorithm, which serves as an intelligent optimized scheme combined with biological genetic mechanism and quantum computing, is widely used in various fields. In this study, an adaptive robust blind watermarking algorithm by means of optimized quantum genetics (OQGA) and entropy classification-based SVM (support vector machine) is proposed. The host image was divided into two parts according to the odd and even rows of the host image. One part was transformed by DCT (discrete cosine transform), and then the embedding intensity and position were separately trained by entropy-based SVM and OQGA; the other part was by DWT (discrete wavelet transform), in which the key fusion was achieved by an ergodic matrix to embed the watermark. Simulation results indicate the proposed algorithm ensures the watermark scheme transparency as well as having better resistance to common attacks such as lossy JPEG compression, image darken, Gaussian low-pass filtering, contrast decreasing, salt-pepper noise, and geometric attacks such as rotation and cropping.http://dx.doi.org/10.1155/2019/7817809
collection DOAJ
language English
format Article
sources DOAJ
author Jun Zhang
Xiaoyi Zhou
Jilin Yang
Chunjie Cao
Jixin Ma
spellingShingle Jun Zhang
Xiaoyi Zhou
Jilin Yang
Chunjie Cao
Jixin Ma
Adaptive Robust Blind Watermarking Scheme Improved by Entropy-Based SVM and Optimized Quantum Genetic Algorithm
Mathematical Problems in Engineering
author_facet Jun Zhang
Xiaoyi Zhou
Jilin Yang
Chunjie Cao
Jixin Ma
author_sort Jun Zhang
title Adaptive Robust Blind Watermarking Scheme Improved by Entropy-Based SVM and Optimized Quantum Genetic Algorithm
title_short Adaptive Robust Blind Watermarking Scheme Improved by Entropy-Based SVM and Optimized Quantum Genetic Algorithm
title_full Adaptive Robust Blind Watermarking Scheme Improved by Entropy-Based SVM and Optimized Quantum Genetic Algorithm
title_fullStr Adaptive Robust Blind Watermarking Scheme Improved by Entropy-Based SVM and Optimized Quantum Genetic Algorithm
title_full_unstemmed Adaptive Robust Blind Watermarking Scheme Improved by Entropy-Based SVM and Optimized Quantum Genetic Algorithm
title_sort adaptive robust blind watermarking scheme improved by entropy-based svm and optimized quantum genetic algorithm
publisher Hindawi Limited
series Mathematical Problems in Engineering
issn 1024-123X
1563-5147
publishDate 2019-01-01
description With the intensive study of machine learning in digital watermarking, its ability to balance the robustness and transparency of watermarking technology has attracted researchers’ attention. Therefore, quantum genetic algorithm, which serves as an intelligent optimized scheme combined with biological genetic mechanism and quantum computing, is widely used in various fields. In this study, an adaptive robust blind watermarking algorithm by means of optimized quantum genetics (OQGA) and entropy classification-based SVM (support vector machine) is proposed. The host image was divided into two parts according to the odd and even rows of the host image. One part was transformed by DCT (discrete cosine transform), and then the embedding intensity and position were separately trained by entropy-based SVM and OQGA; the other part was by DWT (discrete wavelet transform), in which the key fusion was achieved by an ergodic matrix to embed the watermark. Simulation results indicate the proposed algorithm ensures the watermark scheme transparency as well as having better resistance to common attacks such as lossy JPEG compression, image darken, Gaussian low-pass filtering, contrast decreasing, salt-pepper noise, and geometric attacks such as rotation and cropping.
url http://dx.doi.org/10.1155/2019/7817809
work_keys_str_mv AT junzhang adaptiverobustblindwatermarkingschemeimprovedbyentropybasedsvmandoptimizedquantumgeneticalgorithm
AT xiaoyizhou adaptiverobustblindwatermarkingschemeimprovedbyentropybasedsvmandoptimizedquantumgeneticalgorithm
AT jilinyang adaptiverobustblindwatermarkingschemeimprovedbyentropybasedsvmandoptimizedquantumgeneticalgorithm
AT chunjiecao adaptiverobustblindwatermarkingschemeimprovedbyentropybasedsvmandoptimizedquantumgeneticalgorithm
AT jixinma adaptiverobustblindwatermarkingschemeimprovedbyentropybasedsvmandoptimizedquantumgeneticalgorithm
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