Method for watermarking robust audios with invariable time scale based on zero-crossing rate

A technology of time scale and audio watermarking, which is applied in voice analysis, instrumentation, recording signal processing, etc., can solve problems such as weak robustness and performance dependence, and achieve the effect of ensuring robustness

Inactive Publication Date: 2009-09-02
SOUTHWEST JIAOTONG UNIV
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Problems solved by technology

Based on the literature "An audio watermarking method robust against time and frequency fluctuation" (R. Tachibana, S. Shimizu, Proceedings of SPIE Security and Watermarking of Multimedia Contents III, vol.4314, pp.104-115, 2001), the literature "Improving audio watermarking robustness using stretched patterns against geometric distortion" (R. Tachibana, Proceedings of IEEE International Conference on Multimedia, pp.647-654, 2002.) Improving performance against timescale modification to ±8 by using multiple pseudorandom arrays %, but its performance still depends on the adjustment of some parameters
The literature "Localized audiowatermarking technique robust against time-scale modification" (W.Li, X.Y.X...

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  • Method for watermarking robust audios with invariable time scale based on zero-crossing rate
  • Method for watermarking robust audios with invariable time scale based on zero-crossing rate
  • Method for watermarking robust audios with invariable time scale based on zero-crossing rate

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Embodiment Construction

[0027] The content of the present invention will be further described in detail below in conjunction with the accompanying drawings.

[0028] 1. Watermark embedding: such as figure 1 process to embed the watermark.

[0029] (1) Divide the original audio signal A={a(i)|1≤i≤L} into N frames, expressed as A j |j=1, K, N, the original audio signal such as image 3 shown.

[0030] (2) Calculate the zero-crossing rate of each audio frame, expressed as Z j |j=1, K, N.

[0031] (3) Select M with the largest zero-crossing rate 1 Audio frames are used to embed watermarks, denote this M 1The smallest zero-crossing rate in an audio frame is ZCR 1 , the remaining N-M 1 The maximum zero-crossing rate in an audio frame is ZCR 2 , should satisfy the condition that ZCR 1 -ZCR 2 ≥T. Among them, T is the preset threshold, here T=0.05, M 1 =3.

[0032] (4) to M 1 One frame PA in audio frames 1 Embed watermark. PA 1 divided into N 1 Non-overlapping audio segments, denoted as PA ...

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Abstract

The invention discloses a method for watermarking robust audios with invariable time scale based on zero-crossing rates, which comprises the following steps: firstly, dividing an original audio signal A into a plurality of nonoverlapping audio frames; secondly, calculating the zero-crossing rate of each audio frame, and selecting M1 audio frames with larger zero-crossing rates for embedding watermarks according to a preset threshold value T; thirdly, dividing each one of the M1 audio frames into a plurality of nonoverlapping audio segments of which the number is accordant with the total bit number of the watermarks to be embedded, quantizing the average value of nonoverlapping audio segment samples so as to embed watermark bits, and modifying sample values which correspond to each audio segment so as to obtain the audio segments containing the watermarks; and finally, interconnecting the audio segments containing the watermarks to obtain audio frames containing the watermarks so as to form the final audios with the watermarks. The method has a simple algorithm, is applicable to all types of audio signals, and not only can effectively resist attacks of conventional signal processing, but also has strong robustness for time scale modifications in a resampling form.

Description

technical field [0001] The invention relates to a time-scale-invariant robust audio watermarking method based on zero-crossing rate, in particular to a robust audio watermarking method suitable for digital audio copyright protection and capable of effectively resisting re-sampling time scale modification. Background technique [0002] In recent years, with the rapid development of computer network technology and multimedia technology, quite a few audio watermarking methods have been proposed for copyright protection of audio data. However, the synchronization attack problem is still a hot and difficult problem in the field of audio watermarking. Synchronization attacks mainly include cropping and time-scale modification (Time-Scale Modification, TSM). Compared with shearing, time scale modification can stretch or shorten the length of audio signal without changing the audio quality and perception, and it is more destructive to the watermark information embedded in the audio...

Claims

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Application Information

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IPC IPC(8): G10L19/00G11B20/00G10L19/018
Inventor 王宏霞范明泉
Owner SOUTHWEST JIAOTONG UNIV
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