计算机工程与应用
計算機工程與應用
계산궤공정여응용
COMPUTER ENGINEERING AND APPLICATIONS
2014年
12期
87-90,95
,共5页
音频水印%零水印%奇异值分解%离散小波变换%自适应
音頻水印%零水印%奇異值分解%離散小波變換%自適應
음빈수인%령수인%기이치분해%리산소파변환%자괄응
audio watermarking%zero-watermarking%singular value decomposition%discrete wavelet transform%adaptive
为了对数字音频的版权进行有效的保护,结合人类听觉系统和奇异值分解的重要特性,提出了一种小波域数字音频零水印算法。用混沌序列对水印图像进行加密,根据音频信号的时域局部特征选择最适合于构造零水印的音频段,对选取的音频段进行离散小波变换,提取小波域的低频分量作奇异值分解,利用低频系数的最大奇异值构造零水印,实现数字音频的版权保护。实验结果表明,水印的安全性和不可感知性很好;对于不同风格的音频信号,算法均具有良好的鲁棒性,能够有效抵抗高斯噪声、低通滤波、重采样、重量化、剪切以及压缩等攻击。
為瞭對數字音頻的版權進行有效的保護,結閤人類聽覺繫統和奇異值分解的重要特性,提齣瞭一種小波域數字音頻零水印算法。用混沌序列對水印圖像進行加密,根據音頻信號的時域跼部特徵選擇最適閤于構造零水印的音頻段,對選取的音頻段進行離散小波變換,提取小波域的低頻分量作奇異值分解,利用低頻繫數的最大奇異值構造零水印,實現數字音頻的版權保護。實驗結果錶明,水印的安全性和不可感知性很好;對于不同風格的音頻信號,算法均具有良好的魯棒性,能夠有效牴抗高斯譟聲、低通濾波、重採樣、重量化、剪切以及壓縮等攻擊。
위료대수자음빈적판권진행유효적보호,결합인류은각계통화기이치분해적중요특성,제출료일충소파역수자음빈령수인산법。용혼돈서렬대수인도상진행가밀,근거음빈신호적시역국부특정선택최괄합우구조령수인적음빈단,대선취적음빈단진행리산소파변환,제취소파역적저빈분량작기이치분해,이용저빈계수적최대기이치구조령수인,실현수자음빈적판권보호。실험결과표명,수인적안전성화불가감지성흔호;대우불동풍격적음빈신호,산법균구유량호적로봉성,능구유효저항고사조성、저통려파、중채양、중양화、전절이급압축등공격。
In order to protect the copyright of the digital audio effectively, combined with the important features of human auditory system and singular value decomposition, a digital audio zero-watermarking algorithm in the wavelet domain is presented. The algorithm uses chaotic sequence to encrypt the watermarking image, then chooses most suitably constructing the audio segment of zero-watermarking according to the local features of audio signals in time domain. The selected audio segments are carried on discrete wavelet transform, and low frequency components of the wavelet domain are extracted for singular value decomposition. The zero-watermarking is constructed using the largest singular value of the low frequency coefficients, and the digital audio copyright protection is realized. The experimental results show that the safety and the imper-ceptibility of the watermarking are very good, and the algorithm has good robustness for different styles of audio signals. It can effectively resist the attack of Gauss noise, low-pass filtering, resampling, requantization, shear and compression.