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Matrix-transformation-based method for underdetermined blind source separation

An underdetermined blind separation and matrix transformation technology, applied in speech analysis, instruments, etc., can solve problems such as harsh conditions, strict signal sparsity requirements, and poor anti-noise performance.

Inactive Publication Date: 2011-10-19
DALIAN UNIV OF TECH
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  • Abstract
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Problems solved by technology

The advantage of this method is that the traditional overdetermined separation technology can be used. The disadvantage is that the separation effect depends on the quality of the newly constructed observation signal. Once the signal is not well constructed, the separation quality will deteriorate.
The two-step method is actually an extension of the basis tracking method. It obtains the optimal solution by solving the linear equation and constraining the solution. Using the sparsity of the signal, it minimizes the 0 norm and then constrains the solution. The 0 norm is very easy to deal with. Inconvenient and especially sensitive to noise
In 1999, D. L. Donoho demonstrated the equivalence of using the smallest norm of 1 and the smallest norm of 0 under certain conditions. The norm of 1 is easier to deal with than the norm of 0. The optimal solution can be easily obtained by using linear programming, and the anti-noise performance Although it is better than the 0-norm criterion, the effect is still unsatisfactory. In addition, the algorithm is based on the sparsity of the signal in the time domain, so the general separation effect is very poor.
The time-frequency masking method was first proposed by Sam T. Roweis in 2000. In 2004, Yilmaz and Rickard combined the DUET algorithm to further develop the time-frequency masking algorithm. However, this type of method strictly requires that the source signal approximately satisfies W-dislocation orthogonality, harsh conditions
In 2005, Abrard proposed the TIFROM algorithm. This method requires that only one source signal exists in the observation signals of several adjacent time-frequency windows. The length of the time-frequency window is difficult to determine, and it is impossible to search for all single-source time-frequency frequency domain
This type of method is based on the sparsity condition of the time-frequency domain of the source signal, and designs a masking template equivalent to a time-frequency filter, and uses the template to extract the time-frequency points of each source signal one by one, thereby achieving separation. The disadvantage is that the requirements for signal sparsity are very strict, and the anti-noise performance is poor
These methods have a common defect that is based on the sparsity of the signal, which greatly limits their application.
In recent years, the problem of underdetermined blind source separation based on weak sparsity has gradually attracted the attention of scholars. In 2007, A. Aissa-El-Bey et al. used the subspace method to realize underdetermined blind source separation under weak sparse conditions , but this method requires a lot of computation and needs to be improved

Method used

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  • Matrix-transformation-based method for underdetermined blind source separation
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  • Matrix-transformation-based method for underdetermined blind source separation

Examples

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Effect test

Embodiment 1

[0089] Select 4 voice signals of different speakers from the voice library as the source signal, take 50000 points respectively, and perform linear instantaneous mixing in the time domain. The mixing matrix is ​​as follows:

[0090]

[0091] The obtained scattered mixed signal is transformed into the time-frequency domain by short-time Fourier transform. The frame length of the short-time Fourier transformed time-domain signal is 1024 points, the overlap between frames is 512 points, and the frequency domain resolution is 1024 points. The time-domain waveform of the original four-way voice signal is attached image 3 As shown in (a), the time-domain waveforms of the three-way observation signals after linear instantaneous mixing are shown in the attached image 3 Shown in (b), the four-way voice signal time-domain waveform that the present invention separates is as attached image 3 (c) shown. Compared image 3 (a) and image 3 (c) It can be seen that the recovery perfo...

Embodiment 2

[0097] One of the advantages of the present invention is that it lowers the requirement on the statistical characteristics of the source signal, and enables underdetermined separation of related source signals. Select one voice signal from the voice library, and then take different time periods of the voice to form four related source signals. The time-domain waveforms of the original four-way correlation signals are attached Figure 4 As shown in (a), the time-domain waveforms of the three-way observation signals after linear instantaneous mixing are shown in the attached Figure 4 Shown in (b), the time-domain waveforms of the four-way signals separated by the present invention are as attached Figure 4 (c) shown. The output signal-to-noise ratio of the separated signals is shown in Table 2.

[0098] Table 2 Signal-to-noise ratio (SNR) of four-way correlated speech output

[0099]

Embodiment 3

[0101] The invention can well solve the underdetermined separation of weak and sparse signals. The advantages of the present invention will be described below by taking noise with poor sparsity as an example. Select one noise and three different speech signals from the speech library. The time-domain waveforms of the original one-way noise and three-way voice signals are attached Figure 5 As shown in (a), the time-domain waveforms of the three-way observation signals after linear instantaneous mixing are shown in the attached Figure 5 Shown in (b), the four-way signal time-domain wave form that the present invention separates is as attached Figure 5 (c) shown. The output signal-to-noise ratio of the separated signals is shown in Table 3.

[0102] Table 3 One-way noise, three-way voice output signal-to-noise ratio SNR

[0103]

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Abstract

The invention discloses a matrix-transformation-based method for underdetermined blind source separation. The method comprises the following steps of: gradually transforming a mixed matrix to obtain a transformed matrix, then acting the transformed matrix on an observation signal to gradually remove each source signal, and constructing multi-stage binary shielding templates by zero points generated in each observation signal to gradually separate the source signal. By the method, the requirement on sparsity of the source signal is reduced; aliasing of at most M-1 paths of source signals is prevented (wherein M is the number of sensors); source signals for forming each time frequency point can be clearly known; the underdetermined separation problem of music signals and noise signals is solved; the statistical property requirement on the source signal is low; the underdetermined separation problem of Gaussian signals and related signals is solved; processing stages are adjusted according to the requirement of separation precision; when the processing level is more, the separation result is better; the separation process is realized by aid of the matrix transformation; and the complexity is relatively low.

Description

technical field [0001] The invention relates to a method for blindly separating instantaneous mixed signals under the condition of underdetermination. The method can separate sparse, weakly sparse or correlated signals, and can be applied in the fields of signal processing, biomedicine and communication. Background technique [0002] Blind Source Separation (BSS) is a technology to determine a transformation based on the observed mixed data vector to restore the original signal or source. Typically, the observed data vector is the output of a set of sensors, where each sensor receives a different combination of source signals. The term "blind" has two meanings: a. the source signal cannot be observed; b. how the source signal mixes is unknown. When the number of source signals is more than the number of observation signals, it is an underdetermined blind separation (UBSS) problem, which is closer to practical applications, and it is also a technical difficulty of linear in...

Claims

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Application Information

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IPC IPC(8): G10L21/02
Inventor 马晓红杨捷朱东岩
Owner DALIAN UNIV OF TECH
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