CN203465417U - Sonar array signal processing device based on self-adaptive noise canceller - Google Patents

Abstract

The utility model provides a sonar array signal processing device based on a self-adaptive noise canceller. The device comprises a reference noise sensor, a signal generator, a self-adaptive noise canceller and an array signal processor, wherein the reference noise sensor is arranged near a ship propeller; and the components are connected in a manner that the signal generator is respectively connected with the reference noise sensor and an external sonar array, and the signal generator is further connected with the self-adaptive noise canceller and the array signal processor in sequence. The sonar array signal processing device adopts the independent reference noise sensor, and eliminates the noise contained in array element signals through the reference noise after processing based on weights by optimizing and updating the weights on the self-adaptive noise canceller, thereby ensuring that a target is judged accurately by wave beams formed on the basis of the array element signals after denoising.

Description

Sonar array signal processing apparatus based on Adaptive Noise Canceller

Technical field

The utility model belongs to Underwater acoustic signal processing technical field, is specifically related to a kind of sonar array signal processing apparatus based on Adaptive Noise Canceller.

Background technology

Array Signal Processing is the core technology of most signal processings.Harry L.Van Trees is in its classic and great book Optimum Array Processing(John Wiley & Sons, Inc, 2002) in pair array signal processing technology done comprehensive further investigation.In Array Signal Processing, the optimal processor of anti-isotropic space noise is conventional delayed addition Beam-former; The general disposal route of anti-strong interferers is that generalized sidelobe canceller and various equivalence thereof realize.When anti-strong interferers, hypothesis is disturbed as far field plane wave, as " estimation of broadband beam space coherent signal subspace high-resolution orientation " (acoustic journal, 31(5): 418-424, in September, 2006) in interference source direction array beams figure, form groove, " the real-time Processing Algorithm that adaptive wideband Multi-path interference is offset " (acoustics and electronic engineering, total the 55th phase: 1-10, the third phase in 1999) form and point to the end-fire wave beam disturbing; Or the transport function of supposing to interfere with each array element of array is known, by transition function is compensated and extracts undesired signal, as " acoustic shielding and sound focusing in the channel of many ways " (Harbin Engineering University's journal, 30(3): 299-306, in March, 2009) and " Matched Field squelch: principle and the application to hydrophone array " (Science Bulletin, 48 (12): 1274-1278, in June, 2003).These ways are all that the signal self receiving based on each array element of array is processed and obtains, and belong to classical Array Signal Processing category.

Sonar position self noise is one of interference of sonar, and it disturbs higher than ambient sea noise and reverberation under the higher speed of a ship or plane, is the principal element of restriction sonar operating range.Suppress the significant and actual application value of the main self noise composition in sonar position.Self noise source, sonar position is numerous, and route of transmission is complicated, is difficult to comprehensive inhibition in engineering.Conventionally aspect noise source and route of transmission two, taking physical measure, as " forecasting procedure and the control technology thereof of boats and ships sonar position self noise " (Ship Mechanics SUM, 6(5): 80-94, in October, 2002) point out to improve sonar dome design and application Multi-functional sound baffle.What this class measure was considered focuses in physical measure, and the angle of not processing from signal is considered the control problem of self noise.

From the above, there is lower shortcoming in prior art:

A, when adaptive beam forms, each wave beam all needs to carry out adaptive anti-jamming processing.In engineering practice, for fear of the uncontinuity of wave beam overlap joint, wave beam number is greater than element number of array conventionally, and self-adaptation calculating amount is large like this, to real-time operation, has brought burden.

B, common discrete relative time delay or the transport function that interferes with each array element of hypothesis space are known, although its time-frequency characteristic is unknown.This hypothesis is not always set up.

C, the array signal process technique information that always each array element based on forming array provides, the information of not utilizing other possible sensor to provide.

Utility model content

The purpose of this utility model is in order to overcome the deficiencies in the prior art, proposes the sonar array signal processing apparatus based on Adaptive Noise Canceller that a kind of sonar is applied under the high speed of a ship or plane.Under the high speed of a ship or plane, propulsion noise has limited sonar operating range, and the utility model can be eliminated the propulsion noise in sonar array signal well, thereby under the high speed of a ship or plane, improves the operating distance of sonar.

Realize the technical solution of the utility model as follows:

A sonar array signal processing apparatus based on Adaptive Noise Canceller, comprises reference noise sensor, signal generator, Adaptive Noise Canceller and array signal processor, and wherein reference noise sensor setting is near naval vessel thruster;

Annexation between above-mentioned each device is: signal generator is connected with outside sonar array with reference noise sensor respectively, and signal generator also connects Adaptive Noise Canceller and array signal processor in turn.

Further, signal generator described in the utility model is for converting the simulating signal of sonar array and the generation of reference noise sensor to digital signal, and the digital signal being converted to is carried out to frequency-division section filtering, obtain array element signals and the reference signal of a plurality of different frequency ranges, and be transferred to Adaptive Noise Canceller;

Adaptive Noise Canceller comprises many group subtracters and sef-adapting filter; Corresponding array element signals and the reference signal of each group frequency range processed by one group of subtracter and sef-adapting filter; Described being treated to:

Described sef-adapting filter is with a weight vector maker, and sef-adapting filter multiplies each other for the weights of storing with reference to signal and weight vector maker, and the result multiplying each other is exported to subtracter; Described subtracter subtracts each other the output of array element signals and sef-adapting filter as the output of adaptive cancellation device, simultaneously the control signal using the result of subtracting each other as weight vector maker; Described weight vector maker upgrades the weights of its storage according to described control signal;

Array signal processor is for carrying out wave beam formation to the signal of Adaptive Noise Canceller output.

Further, the position that lays of reference noise sensor described in the utility model is within the scope of near thruster position 3 meters-200 meters.

Beneficial effect

First, the utility model adopts independently reference noise sensor, by the weights in Adaptive Noise Canceller, be optimized renewal, after making to process based on weights, reference noise can well be eliminated the noise that array element signals comprises, thereby the wave beam that the array element signals of assurance based on after denoising forms is accurately judged target.

Second, the utility model adopts and is laid near the reference noise sensor of thruster, for sonar array provides additional information, adopt each array element frequency-division section of sonar array to carry out independently adaptive noise cancellation, the utility model upgrades weights based on control signal, it has adapted to the analytic solution from noise source to array comparatively complexity and the larger feature of spatial variations, thereby adaptive noise cancellation is effective.

The 3rd, near the reference noise sensor that the utility model employing is laid on thruster can extract purer reference noise, has avoided signal " leakage ".

The 4th, each array element signals of the utility model still can be carried out take the existing array signal processor that generalized sidelobe canceller is representative after by adaptive noise canceller and be carried out wave beam formation, thus the utility model after noise cancellation without improving or increasing follow-up processing hardware.

Accompanying drawing explanation

Fig. 1 is the schematic diagram of signal processing apparatus of the present invention;

Fig. 2 is the block scheme of the utility model sonar array signal processing apparatus;

Fig. 3 is the block scheme of the preferred embodiment of array signal processor;

Fig. 4 (a) and Fig. 4 (b) are the spatial spectrum simulation result figure of the output of the utility model while being dominant for propulsion noise;

Sonar array 101, reference noise sensor 102, signal generator 103, Adaptive Noise Canceller 104, array signal processor 105, sqignal conditioning unit 106, analog to digital converting unit 107, fixed filters group 108, totalizer 201, lag line 202, totalizer 203, divider 204.

Embodiment

Below in conjunction with the drawings and specific embodiments, the utility model is elaborated.

As shown in Figure 1-2, the sonar array signal processing apparatus of the utility model based on Adaptive Noise Canceller, the processing object of this device is the array signal (being the mixed signal of background noise signal and echo signal) that sonar array 101 generates; The utility model signal processing apparatus comprises reference noise sensor 102, signal generator 103, Adaptive Noise Canceller 104 and array signal processor 105, and wherein reference noise sensor 102 is arranged near naval vessel thruster; Annexation between above-mentioned each device is: signal generator is connected with outside sonar array with reference noise sensor respectively, and signal generator also connects Adaptive Noise Canceller and array signal processor in turn.

The course of work of the present utility model is:

Reference noise sensor 102 is for receiving the reference signal that mainly contains propulsion noise.

Signal generator 103 is for converting the simulating signal of sonar array and the generation of reference noise sensor to digital signal, and the digital signal being converted to is carried out to frequency-division section filtering, obtain array element signals and the reference signal of a plurality of different frequency ranges, and be transferred to Adaptive Noise Canceller; The utility model can preferably utilize the signal generator that comprises signal condition unit 106, analog to digital converting unit 107 and frequency division fixed filters group 108 to realize its function.

Adaptive Noise Canceller 104 comprises many group subtracters and sef-adapting filter; Corresponding array element signals and the reference signal of each group frequency range processed by one group of subtracter and sef-adapting filter; Described being treated to: described sef-adapting filter is with a weight vector maker, it multiplies each other for the weights of storing with reference to signal and weight vector maker, and the result multiplying each other is exported to subtracter; Described subtracter subtracts each other the output of array element signals and sef-adapting filter as the output of adaptive cancellation device, simultaneously the control signal using the result of subtracting each other as weight vector maker; Described weight vector maker is adjusted the weights of its storage according to described control signal.

As shown in Figure 2, Adaptive Noise Canceller is all carried out adaptive noise cancellation for the signal of each frequency range output of the frequency-division section fixed filters of signal generator, and each passage, each frequency range filtering all independently carry out.For example, sonar array comprises N array element, each array element signals and reference signal have been carried out respectively the frequency-division filter of L frequency range, array element signals and reference signal that frequency range is identical have formed NL group altogether, Adaptive Noise Canceller need to be organized signal to NL and realize noise cancellation, so the utility model needs NL group subtracter and sef-adapting filter.Meanwhile, in the present embodiment, can use infinite impulse response (IIR) wave filter as sef-adapting filter, and without FIR transversal filter.

Array signal processor 105 is for carrying out wave beam formation to the signal of Adaptive Noise Canceller output.The utility model array signal processor is to carry out for the output of Adaptive Noise Canceller, the signal of reference noise sensor is not processed.

The utility model arranges reference noise sensor on thruster, the noise signal that the noise signal that Adaptive Noise Canceller utilizes reference noise sensor to gather comprises array element signals is offset, thereby eliminate the impact of noise on echo signal, make the utility model accurately to judge target (because the corresponding beam shape of different types of target is different, therefore can judge target based on beam shape) according to forming wave beam.

The utility model gordian technique point is Adaptive Noise Canceller, below its design concept describe:

The i array element passage in sonar array of take is example, and that reference noise sensor receives is propulsion noise n _otherefore, due to very little with respect to propulsion noise, negligible at the energy of reference noise sensor place echo signal, what can think that reference noise sensor picks up is simple propulsion noise.Propulsion noise is by complicated channel transfer functions H1 _i(H1 concerning each array element of sonar array _idifferent) form that arrives sonar array i array element is n _1i, i.e. n _1i=n ₀* h1 _i(h1 in formula _isystem H1 _ishock response, * represents convolution).The information that sonar array i array element receives is except n _1iin addition, also contain far field echo signal s and all the other interference n _2i.

If know the H1 of each passage _i, can design can be by n _obecome n _1ifixed filters.Yet, due to each transmission channel H1 _ibe unknown, and there is no fixing character, use preset parameter wave filter just infeasible.Therefore need sef-adapting filter to adopt adaptive algorithm automatically to regulate self shock response, thereby Adaptive Noise Canceller can be carried out work under the condition changing, and can constantly regulate self, making error signal is Canceller output f _i(t) minimum.

Adaptive Noise Canceller is output as:

f _i(t)＝s+n _1i+n _2i-n ₀*w _i

＝s+n _2i+n ₀*h1 _i-n ₀*w _i （1）

＝s+n _2i+n ₀*(h1 _i-w _i)

W wherein _ithe weights that represent sef-adapting filter.From formula (1), can find out, want to make the power of Adaptive Noise Canceller output minimum, must have

w _i＝h1 _i （2）

Namely work as w _i=h1 _itime, Adaptive Noise Canceller is output as

f _i(t)＝s+n _2i （3）

This result shows, Adaptive Noise Canceller is by adjusting weight vector w _iwhile making it meet formula (2), can be by noise n _1ibalance out completely, and irrelevant interference n _2ican not balance out, but export together with signal s.

Like this, owing to there being the introducing of reference noise sensor, the self noise component that fundamental component-thruster in sonar self-noise causes is suppressed completely, thereby has improved the signal to noise ratio (S/N ratio) of sonar array array element level, for array signal processor provides high s/n ratio input.

If there be " leakage " of echo signal in reference noise sensor, how the effect of Adaptive Noise Canceller will change is that we are concerned about.Signal s is leaked in reference noise sensor by channel J, to simplify the analysis, neglects all the other and disturbs, and only has echo signal and propulsion noise two information sources.Sef-adapting filter W _iinput spectrum Φ _input(z) be (z territory):

Φ _input(z)=Φ _ss(z) | J (z) | ²+ Φ _nn(z) (4)

Φ wherein _ss(z) be the auto-power spectrum of echo signal, Φ _nn(z) be the auto-power spectrum of propulsion noise, J (z) is the transform of echo signal to the transport function of reference noise sensor.

Sef-adapting filter W _iinput and expect that the cross-power spectrum between response is:

Φ _{cross-spectrum}(z)=Φ _ss(z) J ^*(z)+Φ _nn(z) H1 _i(z) (5) wherein subscript * represent conjugation.

After adaptive process convergence, without constraint S filter transition function, be:

Component of signal Φ in now Adaptive Noise Canceller output _outss(z) be:

$\begin{array}{c}{\mathrm{\Φ}}_{\mathrm{outss}}\left(z\right)={\mathrm{\Φ}}_{\mathrm{ss}}\left(z\right){|1-J\left(z\right)W_i\left(z\right)|}^2\\ ={\mathrm{\Φ}}_{\mathrm{ss}}\left(z\right){\left|\frac{[1-J\left(z\right)H{1}_i\left(z\right)]{\mathrm{\Φ}}_{\mathrm{nn}}\left(z\right)}{{\mathrm{\Φ}}_{\mathrm{ss}}\left(z\right){\left|J\left(z\right)\right|}^2+{\mathrm{\Φ}}_{\mathrm{nn}}\left(z\right)}\right|}^2\end{array}---\left(7\right)$

Similar with formula (7), can obtain noise component Φ in Adaptive Noise Canceller output _outnn(z) be:

$\begin{array}{c}{\mathrm{\Φ}}_{\mathrm{outnn}}\left(z\right)={\mathrm{\Φ}}_{\mathrm{nn}}\left(z\right){|{H1}_i\left(z\right)-W_i\left(z\right)|}^2\\ ={\mathrm{\Φ}}_{\mathrm{nn}}\left(z\right){\left|\frac{[1-J\left(z\right){H1}_i\left(z\right)]J^{*}\left(z\right){\mathrm{\Φ}}_{\mathrm{ss}}\left(z\right)}{{\mathrm{\Φ}}_{\mathrm{ss}}\left(z\right){\left|J\left(z\right)\right|}^2+{\mathrm{\Φ}}_{\mathrm{nn}}\left(z\right)}\right|}^2\end{array}---\left(8\right)$

According to formula (7) and formula (8), can obtain Adaptive Noise Canceller output signal-to-noise ratio is:

${\mathrm{SNR}}_{\mathrm{out}}=\frac{{\mathrm{\Φ}}_{\mathrm{outss}}\left(z\right)}{{\mathrm{\Φ}}_{\mathrm{outnn}}\left(z\right)}=\frac{{\mathrm{\Φ}}_{\mathrm{nn}}\left(z\right)}{{\mathrm{\Φ}}_{\mathrm{ss}}\left(z\right)}{\left|\frac{1}{J\left(z\right)}\right|}^2---\left(9\right)$

Yi Zhi, in the signal to noise ratio (S/N ratio) of reference noise sensor input end is:

${\mathrm{SNR}}_{\mathrm{refin}}=\frac{{\mathrm{\Φ}}_{\mathrm{ss}}\left(z\right)}{{\mathrm{\Φ}}_{\mathrm{nn}}\left(z\right)}{\left|J\left(z\right)\right|}^2---\left(10\right)$

By (9) (10) two formulas, can be obtained:

${\mathrm{SNR}}_{\mathrm{out}}=\frac{1}{{\mathrm{SNR}}_{\mathrm{refin}}}---\left(11\right)$

This explanation, when not considering that other disturb, the signal to noise ratio (S/N ratio) of Adaptive Noise Canceller output and the signal to noise ratio (S/N ratio) of reference noise sensor are inversely proportional to.And in the specific implementation, the signal to noise ratio (S/N ratio) of reference noise sensor is low-down, this has guaranteed the effect of Adaptive Noise Canceller.Therefore to the leakage signal in reference noise sensor, Adaptive Noise Canceller performance is very sane.

Embodiment 1: have many methods to upgrade continuously sef-adapting filter weights.Better lowest mean square (LMS) algorithm that used of the present embodiment, it minimizes the mean square value of the difference between original input channel (array element signals) and reference noise passage (reference signal);

In LMS algorithm, adaptive weight W (n+1) upgrades according to the following formula:

W (n+1)=W (n)+2 μ ε (n) X (n) (12) wherein X (n) is the array element signals of Adaptive Noise Canceller input, the output signal that ε (n) is Adaptive Noise Canceller, control signal namely, μ is the Learning Step of default LMS algorithm, n is the number of times that sef-adapting filter upgrades weights, n=0 when initial, initial weight is prior default parameter;

In the present embodiment, weights are carried out to recursive filtering, weights are chosen by following formula:

$\stackrel{\‾}{W}(n+1)=\stackrel{\‾}{W}\left(n\right)+\frac{1}{M}[W(n+1)-\stackrel{\‾}{W}\left(n\right)]---\left(13\right)$

Wherein M is default integration constant.

Adopt above-mentioned weights method to make adaptive adaptive noise canceller realize recursive filtering to array element signals, filtering the power noise in array element signals, the algorithm convergence of the present embodiment is fast.

The utility model can also adopt as recursive least-squares (RLS) method renewal sef-adapting filter weights.

Embodiment 2: as shown in Figure 3, when the interference in the output after offsetting is mainly isotropic space noise, array signal processor adopts delayed addition processor.This array signal processor comprises totalizer 201, lag line 202, totalizer 203 and divider 204.Wherein totalizer 201 output of each frequency range of Adaptive Noise Canceller is done cumulative, to reduce the burden of lag line 202; Lag line 202 is the alignment of the time delay on nominal direction by each channel signal; 203 pairs of each channel signals of totalizer carry out coherent accumulation, and divider 204 is normalized signal energy.

The utility model can also adopt generalized sidelobe canceller as the array signal processor after adaptive noise cancellation.

Fig. 4 is simulation result of the present utility model.Thruster very noisy passes to 21 yuan of sonar receiving arraies by complicated bang path, Fig. 4 (a) and Fig. 4 (b) are respectively the space spectrogram of the array output before and after adaptive noise cancellation, as can be seen from the figure good than existing treatment effect after the utility model introducing Adaptive Noise Canceller.

In sum, these are only preferred embodiment of the present utility model, be not intended to limit protection domain of the present utility model.All within spirit of the present utility model and principle, any modification of doing, be equal to replacement, improvement etc., within all should being included in protection domain of the present utility model.

Claims (3)

1. the sonar array signal processing apparatus based on Adaptive Noise Canceller, it is characterized in that, comprise reference noise sensor, signal generator, Adaptive Noise Canceller and array signal processor, wherein reference noise sensor setting is near naval vessel thruster;

Annexation between above-mentioned each device is: signal generator is connected with outside sonar array with reference noise sensor respectively, and signal generator also connects Adaptive Noise Canceller and array signal processor in turn.

2. the sonar array signal processing apparatus based on Adaptive Noise Canceller according to claim 1, is characterized in that,

Described signal generator is for converting the simulating signal of sonar array and the generation of reference noise sensor to digital signal, and the digital signal being converted to is carried out to frequency-division section filtering, obtain array element signals and the reference signal of a plurality of different frequency ranges, and be transferred to Adaptive Noise Canceller;

Described Adaptive Noise Canceller comprises many group subtracters and sef-adapting filter; Corresponding array element signals and the reference signal of each group frequency range processed by one group of subtracter and sef-adapting filter;

Described sef-adapting filter is with a weight vector maker, and sef-adapting filter multiplies each other for the weights of storing with reference to signal and weight vector maker, and the result multiplying each other is exported to subtracter;

Described subtracter subtracts each other the output of array element signals and sef-adapting filter as the output of adaptive cancellation device, simultaneously the control signal using the result of subtracting each other as weight vector maker;

Described weight vector maker upgrades the weights of its storage according to described control signal;

Described array signal processor is for carrying out wave beam formation to the signal of Adaptive Noise Canceller output.

3. the sonar array signal processing apparatus based on Adaptive Noise Canceller according to claim 1, is characterized in that, the position that lays of described reference noise sensor is within the scope of near thruster position 3 meters-200 meters.

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