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Convex Combination Noise Reduction Method Based on the Minimum Difference Between Error Square and Error Square Logarithm

An error square and convex combination technology, applied in active noise control, musical instruments, sounding instruments, etc., can solve the problems that the convergence speed and steady-state error need to be further improved, and the filter weight update value is sensitive to errors, etc., to improve the convergence speed and noise reduction performance, high degree of positive correlation, and small steady-state error

Active Publication Date: 2022-03-25
SOUTHWEST JIAOTONG UNIV
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Problems solved by technology

Its filter weight update is linearly positively correlated with the residual error e(n), so that the filter weight update value is more sensitive to the error, making the convergence speed faster and the steady-state error smaller, but its convergence speed and steady-state error are still relatively small. to be further improved

Method used

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  • Convex Combination Noise Reduction Method Based on the Minimum Difference Between Error Square and Error Square Logarithm
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  • Convex Combination Noise Reduction Method Based on the Minimum Difference Between Error Square and Error Square Logarithm

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specific Embodiment approach

[0039] A specific embodiment of the present invention is: a convex combined noise reduction method based on the smallest difference between the square of the error and the logarithm of the square of the error, the steps of which are as follows:

[0040] A. Reference signal acquisition

[0041] Collect the output signal of the sound sensor near the noise source, obtain the discrete value x(n) of the reference signal at the current time n, and calculate the discrete value x(n) of the reference signal between the current time n and the time n-L+1, x(n-1),...,x(n-L+1), constitute the adaptive filter input vector X(n) of the current moment n, X(n)=[x(n),x(n -1),...,x(n-L+1)] T , where L=128 is the number of filter taps, and T represents the transpose operation;

[0042] The filter input vector X(n) at the current time n is passed through the convex combination adaptive filter to obtain the large step filter output signal y at the current time n respectively. 1 (n), y 1 (n)=W 1...

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Abstract

The invention discloses a convex combination noise reduction method based on the minimum difference between the error square and the error square logarithm. The steps mainly include: A. reference signal collection, collecting the output signal of the sound sensor near the noise source, and obtaining the reference signal Discrete value x(n), the input signal vector of its filter is X(n)=[x(n),x(n‑1),...,x(n‑L+1)] T ; B, convex combination, the output signal y of the large-step filter 1 (n) and small step size filter output signal y 2 (n) Convex combination by weight λ(n) to obtain combined filter output signal y(n), y(n)=λ(n)y 1 (n)+(1‑λ(n))y 2 (n); C, residual error signal, collect the output signal of the sound sensor near the loudspeaker, obtain the sound signal d(n) after canceling the noise, and draw residual error signal e(n); D, combined filter tap weight Vector update; E, filter weight update; F, filter weight limit; G, repeat, let n=n+1, repeat the steps of A to F. Its convergence speed is fast, the steady-state error is small, and the noise reduction performance is good.

Description

technical field [0001] The invention belongs to the technical field of adaptive control of noise. Background technique [0002] With the improvement of people's living standards, people pay more and more attention to noise pollution, especially some special working environments are exposed to severe noise for a long time, and the health of people working there will be seriously affected; Affect the performance of the equipment and shorten the service life of the equipment. In order to eliminate and reduce these hazards and pollution, effective noise control (noise reduction) measures must be taken to control the increasingly serious noise. [0003] Active noise control (noise reduction) technology is a new technology developed in the field of noise control in recent decades. With the development of electronic technology, the application of adaptive filter technology to active noise control has become the focus of active noise control research. This noise reduction method ...

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): G10K11/178
CPCG10K11/17854G10K11/17879G10K2210/3028
Inventor 赵海全宋普查
Owner SOUTHWEST JIAOTONG UNIV
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