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1.
高翔  李鉴  师芳芳  马军  王文  汪承灏 《声学学报》2018,43(4):655-664
基于时间反转和逆时偏移混合方法用于分层介质中目标的声学检测和定位的原理,本文对分层介质中目标检测和定位的声场进行了数值分析。首先给出了声场分布数值仿真的方法和步骤,进一步采用单发多收和多发多收两种方式对单个目标和多个目标计算出其声场分布。数值仿真结果表明可以较好地实现对目标的检测和定位。比较发现,单发单收方式和多发多收方式都得到较好的结果,但多发多收方式计算耗时过多,因此不宜采用。另外,对多个目标的探测提出了改进方法。   相似文献   

2.
针对一种新型的用于钢管横向缺陷检测的圆台形超声相控阵列,提出了计算管内一次波位移场的模型。设计了三维情况下,圆柱界面存在时的时间延迟法则,并在高频近似下,利用瑞利积分法结合稳相法,研究和计算了管材横截面以及纵剖面上的二维声场分布特性。最后详细讨论了圆台形相控阵列中心夹角、阵元宽度及动态阵元数等参数对管材中聚集声场的影响。结果表明,这种模型以及计算方法可以有效地分析圆台形阵列在钢管内的辐射位移场特性,为实际制作这种圆台形阵列提供理论指导。   相似文献   

3.
恒定束宽扬声器线阵列优化研究   总被引:3,自引:2,他引:1       下载免费PDF全文
朱舸  沈勇  夏洁  冯雪磊 《应用声学》2017,36(2):95-104
为了保持恒定束宽扬声器(Constant beamwidth transducer,CBT)线阵列高频指向性恒定,解决单元间距过小的问题,减小阵元数目,提出了利用声波导代替扬声器单元,建立了波导CBT阵列的声场模型。基于数值计算结果和数据分析,比较了不同阵元数目的波导CBT阵列和CBT阵列的指向性和声场分布,讨论了有效辐射率和使用阵元数目的关系。通过提高有效辐射率可以有效降低CBT阵列所需阵元数目,解决了扬声器单元间距过小的问题。  相似文献   

4.
贾雨晴  苏林  郭圣明  马力 《物理学报》2018,67(17):174302-174302
针对利用不同阵列对浅海环境中水下目标的定位问题,基于简正波分解方法,对组合阵的目标声源定位性能进行了研究,着力解决在实际实验环境下定位性能不够高的问题,并降低实验设备布放难度.在浅海环境下,基于匹配场理论的声接收阵可实现目标的定位,但定位性能受阵形、阵元数目等影响.通过研究不同声接收阵的简正波分解矩阵,可以有效辨别不同阵形定位性能的优劣.仿真实验表明,当某一子阵简正波分解效果较差时,会降低组合阵的定位性能.基于实际实验的需求,在对短垂直阵和组合阵性能的研究中发现,由于水平阵对接收声场的定位模糊度函数中的旁瓣有抑制效果,从而造成模糊度函数表面上旁瓣较低,定位目标的主旁瓣比有所提升的现象.仿真实验表明,不同组合阵形的定位准确度均在90%以上,基于实际应用的考虑,组合阵无疑是对定位性能和实验复杂度的折中选择.  相似文献   

5.
针对线性相控阵列在固体介质中的声场聚焦特性及参数优化问题,该文给出了一个线性阵列的纵波瞬态聚焦声场模型。数值结果表明,当阵元被短时脉冲信号激励时,瞬态聚焦声场中不会形成栅瓣,突破了传统稳态理论模型中对阵元间距的限制;同时由于横纵波在聚焦区域内可完全分离,声束旁瓣的幅值也得到了抑制。其次,增大阵元间距能够显著提高聚焦性能,但会导致聚焦声场能量减弱,综合考虑后,最佳的阵元间距为一个波长左右。并且发现,阵元宽度对于聚焦性能几乎没有影响,但宽阵元能够提高聚焦能量。此外,受到纵波激发特性的影响,使得相控阵只能在低偏转角处获得理想的纵波聚焦性能。最后,采用不同阵元间距的相控阵探头对试块进行成像实验,观察到大阵元间距可以显著改善缺陷成像分辨率,从而验证了理论分析的结果。  相似文献   

6.
分层介质中简谐点源的声场具有确定的角度分布。应用射线理论虽然也可计算给定接收点声场的角度分布,但是它不能反映重要的信号参数——频率对声场角度分布的影响,此外射线理论还无法计算影区中的声场。本文应用简正波理论讨论分层介质中声场的角度分布,获得了声场角度分布的一般表达式,以及定向接收时的声场衰减规律。所得结果可以应用到射线声学影区,并且反映了声场随频率的变化。当研究水声信道和信号在其中的检测效果时,利用本文的结果可以选择最佳的接收方向。对于选取的介质模型进行了数值计算,分析和讨论了所得结果。  相似文献   

7.
张碧星  王文龙 《物理学报》2008,57(6):3613-3619
开展了凹面线性相控阵列辐射声场在液固界面上的反射和折射特性研究,利用射线近似方法,得到了凹面相控阵聚焦声场在液固界面上反射和折射后的声场渐近解析表达式,对声波在液固曲面上的反射和折射声场进行了分析和讨论. 利用这个解析表达式,对凹面线性聚焦声场在液固平界面和液固圆柱界面情况下固体中折射纵波和折射横波的相控阵声场进行了分析和讨论,发现凹面线阵声场在液固圆柱界面下比液固平界面具有更好的聚焦效果. 关键词: 凹面阵列 超声相控阵 反射与折射  相似文献   

8.
快照的时间反转和逆时偏移方法已实现了液-液分层介质中目标的超声检测和定位,现进一步推广到含有固体分层介质情形。由于在含有固体分层介质中,都存在多种的反射波和散射波,因此提出一种筛选方法,首先从中筛选出散射波以及所属波型,再利用快照的时间反转和逆时偏移方法进行处理。实验分别研究了固-液、液-固和固-固分层介质3种情况。利用快照的时间反转和逆时偏移法进行处理,在空间就形成了一个峰状的分布,其峰顶的位置与实际目标的位置比较吻合,误差在一个波长左右。因而,实现了含有固体分层介质中目标的超声检测和定位。   相似文献   

9.
大孔径密集声全息阵列是实现对非平稳噪声成像的有效手段,通过现场快速成像可以掌握声场分布的动态特征。增加声阵列的孔径和阵元密度是提高近场声全息成像性能的主要措施,但随着声阵列阵元数量的增加,声压采集数据量增大,全息运算速度降低,全息成像动态性能下降,不利于现场即时成像分析。研究表明,在一定信噪比条件下,盲目增加阵元数量并不一定能提高近场声全息性能,为此,本文针对密集声全息阵列的阵元数量冗余问题进行研究,提出最优阵元数量估算方法,并采取去冗余处理。本文仿真和实验验证表明:针对一定信噪比条件下的密集阵列去冗余方法实际有效,可以在不降低近场声全息成像性能的前提下,降低运算量,提高全息成像速度,对于非平稳噪声的现场声全息成像测试具有实用意义。  相似文献   

10.
微纳相控线阵超声换能器参数(阵元数目、阵元宽度及阵元间距)直接影响其横向声场分布,而其横向声场分布是能否实现高成像分辨率、大探测深度的决定性因素,也是制备换能器的主要依据。该文利用数值模拟研究微纳相控线阵超声换能器阵元参数对其横向声场中主瓣强度、-3 dB主瓣宽度、第一级旁瓣及栅瓣的影响。结果表明,主瓣强度随着阵元数目增加而增大,随阵元间距减小而增大,随着阵元宽度的增大呈现先增大后减小的趋势;-3 dB主瓣宽度随着阵元数目和阵元间距的增大而减小,随着阵元宽度的减小而减小;此外,减小阵元数目、减小阵元间距或增大阵元宽度均可以抑制旁瓣;栅瓣在阵元间距满足一定条件时可以完全消除。通过这些研究为微纳相控线阵超声换能器的优化设计与制备提供理论参考。  相似文献   

11.
A target in layered medium can be located by the ridge-like distribution time reversal and reverse time migration(TR-RTM) mixed method. However, this method cannot distinguish between acoustic field distributions of the interface and target for the wider acoustic pulse signals, which may result in inaccurate location of the target. A snapshot TR-RTM mixed method is proposed to solve this problem. The principle of snapshot TR-RTM mixed method is first given. Experiments are then carried out, and a mountain-like acoustic field distribution is obtained by processing experimental data. The results show that the location of the peak is that of the target, and the ratio of the scattered signal and interface reflection signal(signal-to-interference ratio) is improved by about four times after processing. Furthermore, this method can effectively suppress the interface reflection signal and enhance the target scattering signal. Therefore, it can achieve effective detection and location of a target in a layered medium.  相似文献   

12.
声波作为信息和能量的载体,一直以来在水下通信中被广泛采用,但尚未解决带宽窄、速率低的问题。在光学领域和电磁波领域,轨道角动量都表征了螺旋相位结构的自然属性;通过引入轨道角动量到声学领域中,水声通信系统的传输能力以及频谱效率都得到扩展。基于换能器圆阵列产生涡旋声波进行分析和检测,研究涡旋声波波束的阵列产生方法,给出涡旋声波波束在水下传播的特性。在主轴方向,采用均匀圆阵列产生不同拓扑模式的涡旋声波波束,确定轨道角动量拓扑模式与换能器阵列之间的对应关系;为生成不同拓扑模式下的涡旋声波,研究阵列单元数目、阵列半径、传输频率等对涡旋声波的影响。通过研究发现模式数越高,涡旋声波主瓣波束角越大,主瓣峰值越小。阵列半径越大,主瓣波束角越大,而主瓣峰值则随着阵列半径的增大而减小;频率越高,主瓣波束角越小,主瓣峰值变化不大;阵列单元数对主瓣波束角无影响,但与主瓣峰值成正比关系,阵列单元数越多,主瓣峰值越大。  相似文献   

13.
由于良好的声束偏转与聚焦特性,超声相控阵已经广泛应用于多层固体介质的缺陷检测。当超声束经过多层介质时,由于反射、透射以及模式转换的存在,多种声束存在于这种结构中,使得声场分析变得复杂。为了提高多层介质检测的准确性,有必要对超声声场的分布规律进行深入地了解。该文结合高斯声束等效点源模型以及射线追踪法,给出了相控阵声源在多层固体介质中激发声场的仿真方法,并且模拟计算了一维线型相控阵在楔块-铝-黄铜-钢四层固体介质中的辐射声场。通过对不同延时法则的计算,实现了声波在这种复杂介质中的偏转与聚焦,进而研究了不同焦点处聚焦声场的分布。结果表明:相控阵方法能使聚焦点处的声场幅值增大,能量集中,提高了检测分辨率;不同聚焦点处声场聚焦效果不同,实际检测时应根据检测区域结构及位置特点,合理放置相控阵换能器。与瑞利积分法的比较表明,该文的仿真方法适用于多层介质相控阵声场的计算。  相似文献   

14.
Targets in layered media can be detected and located using a time reversal(TR)-reversed-time migration(RTM) mixed method.In this study, this single emission-multiple receiving method is tested experimentally by using two types of layered media and three types of targets. The signal reflected at the interface and the signal scattered by the target are measured by each receiver to obtain the travel time for several transmitter-receiver pairs. Thereafter, the amplitude ratio between the two measured signals is compared with the theoretical amplitude. The RTM process involves the convolution of the forward acoustic beam from the source with the backward acoustic beam from the receiver which adds an appropriate delay determined on the measured travel time data. By using this approach, the acoustic field distribution can be obtained, and the position of the target can be determined.Moreover, the measured positions of the target are compared with the actual position to validate the accuracy of this technique.  相似文献   

15.
The shear-horizontal(SH) waves excited by the shear source in a borehole are easy to analyze due to the simple waveform. The borehole-side structures make the formation properties discontinuous. We consider a cylindrical double layer structure and study the borehole shear-horizontal and transverse-electric(SH-TE) seismoelectric waves. We first derive the expressions of the basic field quantities, and simulate the acoustic field and electric field using the real axis integral method. Compared with the wave fields of an infinitely homogeneous porous medium outside the borehole, the cylindrical layered structure makes the multi-mode cylindrical Love waves and their accompanying electric fields excited.Next, in order to study the interface response law of the inducing electric fields, we use the secant integral method to calculate the interface converted electromagnetic waves and analyze the causes of each component. It is found that an interface response occurs each time the SH wave impinges the interface in the layered porous medium. The results show that the SH-TE mode has a potential application for borehole-side interface detection in geophysical logs.  相似文献   

16.
Using the time reversal(TR)-reverse time migration(RTM) mixed method, the numerical analysis towards the acoustic field for detection and location of targets in layered media is performed. First the approaches and steps of the numerical analysis and simulation for acoustic field are proposed, then, the acoustic field distribution of single target and multiple targets are further computed by using the approaches of single emission-multiple receiving and multiple emission-multiple receiving. The numerical simulation results indicate that target detection and location can be well realized. By comparison, good results are obtained from the both two approaches, but large time-consuming is observed in way of multiple emission-multiple receiving, and so would be unacceptable. Additionally, the improved way is also proposed for multiple target detection.  相似文献   

17.
The wave field excited by both single sources and a vertically directed phased transmitting array in a shallow-water waveguide with a layered elastic bottom is numerically simulated. The receivers are equispaced vertical arrays with different apertures, which are positioned at different depths in the water layer. The type of vertical distribution and the transformation of the vertical angular spectrum of pulsed signals arriving at a receiving array are demonstrated for different parameters of the medium, different carrier frequencies, and different distances from the source. It is shown that a selective angular reception ensures a better resolution of the travel-time curves of waves used for sounding the bottom. As an example, the possibility of singling out the shear wave refracted by a deep-seated bottom layer from the tone pattern of the travel-time curves is demonstrated. This possibility can be realized by means of angular scanning in the course of transmission and reception with the use of vertically oriented arrays.  相似文献   

18.
反射声波成像测井的有限元模拟   总被引:5,自引:0,他引:5       下载免费PDF全文
应用有限元法对新兴的反射声波成像测井进行了数值模拟研究,计算了井旁附近存在不同倾角声阻抗不连续界面对声波的反射,使用的井内激励源为幅度加权相控线阵声波辐射器。从计算出的声全波波形上可以清楚地看到沿井壁传播的折射波和来自井旁界面的反射纵波。应用偏移叠加等数据处理技术对数值模拟波形进行了处理,从偏移剖面上反演出的反射界面的尺寸、位置和倾角等几何特性与数值模拟输入参数基本一致。  相似文献   

19.
The directivity of acoustic transducers used in conventional acoustic logging tools is uncontrollable[1,2], which inevitably affects investigation depth and resolution. At present, deep and wide range of investigation in petroleum exploration is urgently re- quired. It is important to improve the exploration capability to find more complex and fine reservoirs[3], for which the direction of the radiated acoustic energy is a direct factor. Acoustic field in the formations generated by the source…  相似文献   

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