A Sound Field Separation and Reconstruction Technique Based on Reciprocity Theorem and Fourier Transform

We show a method to separate the sound field radiated by a signal source from the sound field radiated by noise sources and to reconstruct the sound field radiated by the signal source. The proposed method is based on reciprocity theorem and the Fourier transform. Both the sound field and its gradient on a measurement surface are needed in the method. Evanescent waves are considered in the method, which ensures a high resolution reconstruction in the near field region of the signal source when evanescent waves can be measured. A simulation is given to verify the method and the influence of measurement noise on the method is discussed.

Ultrasonic Resonator Techniques for Broad-band Spectroscopy and for High-resolution Sound Velocity Measurement of Liquids

This review gives a short introduction into the principles of ultrasonic measurement techniques for liquids, using cavity resonators. Guidelines for the resonator design in broad-band ultrasonic stxctroscopy as well as in high-resolution single-frequncy or narrowband applications are presented. Deviations of the field configuration in real cells frtxn that in an ideal resonator are discussed and relations for the mode spectrum of cavity fields are given. Recent resonator measurement procedures and methods of data evaluation are mentioned briefly. Some examples of measurements show the extended usability of ultrasonic resonator techniques in basic science and in a wide range of applications for rrkaterials characterization, in manufacturing processes, as well as in control routines.

Sub-Terahertz Channel Sounder: Review and Future Challenges

Due to the large amount of unused and unexplored spectrum resources, the so-called subTerahertz(sub-THz) frequency bands from 100 to 300 GHz are seen as promising bands for the next generation of wireless communication systems. Channel modeling at sub-THz bands is essential for the design and deployment of future wireless communication systems. Channel measurement is a widely adopted method to obtain channel characteristics and establish mathematical channel models. Channel measurements depend on the design and construction of channel sounders. Thus, reliable channel sounding techniques and accurate channel measurements are required. In this paper, the requirements of an ideal channel sounder are discussed and the main channel sounding techniques are described for the subTHz frequency bands. The state-of-the-art sub-THz channel sounders reported in the literature and respective channel measurements are presented. Moreover, a vector network analyzer(VNA) based channel sounder, which supports frequency bands from 220 to330 GHz is presented and its performance capability and limitation are evaluated. This paper also discussed the challenge and future outlook of the sub-THz channel sounders and measurements.

大地电磁测深数据处理方法技术进展

大地电磁测深法以其探测深度大、不受高阻层屏蔽、设备轻便、成本低等优势,被广泛用于地球动力学、成矿系统等研究以及深部资源和(清洁)能源探测、灾害调查等领域。然而,该方法在观测天然电磁场信号方面信号较弱,容易受到噪声干扰,一般需长时间观测和多次叠加方式来获取电性信息,且需同时开展相应的数据处理和分析,以获得更为可靠的地下电性结构。其中,数据处理一般包括时频转换、去噪、阻抗张量和倾子矢量估计,数据分析主要包括电性主轴和介质维度分析。基于前人关于大地电磁测深探测方法的研究成果,针对探测体系中处理、分析的关键环节,总结目前普遍使用的方法,并基于数据处理中的去噪、数据分析中的阻抗和相位张量,介绍探测体系中重要环节的前沿研究方向和成果,分析现有方法各自的特点和优点及其在不同环境和背景下大地电磁场观测数据的适用性,为大地电磁测深的有效、高效应用提供理论信息和基础保障。

60例不典型肝血管瘤患者声速匹配技术及剪切波弹性成像表现及其与肝细胞癌的鉴别

目的分析肝血管瘤患者声速匹配技术及剪切波弹性成像表现及其与肝细胞癌的鉴别。方法2019年7月—2020年7月唐山市第三医院收治的经CT确诊的60例肝血管瘤患者,另外选择经病理穿刺确诊的肝细胞癌患者40例,将其作为肝血管瘤组(n=60)和肝癌组(n=40)。比较两组声速匹配技术及剪切波弹性成像表现,采用受试者工作特征曲线(ROC)分析声速匹配技术及剪切波弹性成像鉴别肝血管瘤与肝细胞癌的价值。结果肝血管瘤组声速匹配值、弹性模量值、剪切波速度最大值、剪切波速度平均值分别为(22.4±3.5)m/s、(16.1±2.5)kPa、(2.7±0.3)m/s、(2.3±0.2)m/s,均低于肝癌组[(40.6±4.5)m/s、(33.5±2.5)kPa、(3.8±0.6)m/s、(3.4±0.4)m/s,P<0.05];ROC曲线分析结果显示,声速匹配值、弹性模量值、剪切波速度最大值、剪切波速度平均值在鉴别肝血管瘤与肝细胞癌中具有极高的价值。结论声速匹配值、弹性模量值、剪切波速度最大值、剪切波速度平均值在鉴别肝血管瘤与肝细胞癌中具有极高的价值,声速匹配技术及剪切波弹性成像可用于鉴别肝血管瘤与肝细胞癌。

不同声音对草鱼幼鱼负趋音性行为反应影响研究

声驱鱼技术作为辅助过鱼措施之一,承担着保证鱼类洄游顺利通过过鱼设施,继而保护鱼类资源和恢复河流连通性的重要作用。本研究采用交替播音的形式,以草鱼(Ctenopharyngodon idellus)幼鱼为研究对象进行负趋音性实验,旨在探究草鱼幼鱼面对不同声音的行为反应。实验水槽(3.6 m×1.1 m×1.0 m)布置于下牢溪周围水域,平均水深为0.5 m,平均流速为0.06 m/s。实验使用1种单频音(1 000 Hz)和5种复杂音(鱼游动声、引擎声、短吻鳄叫声、打桩声和游艇声),声压级(sound pressure level)为(117.69±2.77) dB re 1μPa,对照组为未播放声音时草鱼的行为反应数据。结果显示,播放复杂音时,草鱼的反应次数、趋音速度、运动时间比均显著高于单频音和对照组(P<0.001),草鱼的初次反应时间、平均反应时间均显著低于单频音和对照组(P<0.001);复杂音中,受到游艇声刺激的草鱼反应次数和趋音速度最大,受到鱼游动声刺激的草鱼反应次数、趋音速度最小;复杂音中,受到游艇声刺激的草鱼初次反应时间最短,为(23.40±5.13)s;受到引擎声刺激的草鱼初次反应时间最长,为(146.00±7.82) s,显著低于其他复杂音(P<0.05);受到游艇声和打桩声刺激的草鱼平均反应时间最短,分别为(26.52±3.01) s和(28.76±4.07) s;受到鱼游动声刺激的草鱼平均反应时间最长,为(64.76±17.82)s;复杂音中,受到鱼游动声刺激的草鱼运动时间比最高,为(98.47±0.48)%;受到引擎声刺激的草鱼运动时间比最低,为(94.58±0.54)%;播放单频音时,草鱼的反应次数、初次反应时间、平均反应时间、运动时间比均与对照组无显著差异(P>0.05)。本研究表明,5种复杂音(鱼游动声、引擎声、短吻鳄叫声、打桩声和游艇声)对草鱼幼鱼具有驱赶效果。本研究在丰富鱼类负趋音性研究的同时,为实际工程中声驱鱼辅助过鱼设施的设计和优化提供了科学依据。

声景数据采集技术与模式的研究综述

声景包含来自生物、地理和人类社会的丰富信息,可以作为反映生态系统特征的一个综合性指标。声景的监测是环境监测与管理的重要一环,其产生的声景数据已逐渐在声环境质量主观评价、声景规划、物种识别、生物多样性评估、人体身心健康评价等方面得到应用,数据价值日益凸显。目前市场上能进行声景数据采集的设备技术参数各不相同,设备的使用方式也多样,不利于研究结果的对比。文章详细梳理了声景数据采集设备的关键指标,包括传声器的灵敏度、频率响应、采样率等。总结了开放空间的人工调查、大尺度的参与式感知和固定站点的长期监测三大常用的声景数据采集模式的实践方法与应用场景对比。面对日益丰富的声景大数据,急需从数据格式、数据存储方式和元数据信息等入手实现数据采集的标准化,从而完善声景大数据的管理和共享,针对生物发声的特殊性,还需要充分考虑其生物生理等特征。同时对未来声景监测网络化发展进行了展望,期待推动我国声景数据采集技术的完善。

瑶绣技艺在智能家居设计中的传承与创新应用研究

目的探索如何在现代社会背景下,通过理论和实践相结合的方式,实现瑶绣文化的创新传承和产品价值的提升。方法采用综合性研究方法,结合民族学、人类学、传播学等多学科理论,通过“有形”“有感”和“有效”的发展理念,对瑶绣文化进行现代转译。同时,通过设计实践的方式,建立了以“人-物-场”为体验元素的多角度共创体系,通过构建FAHP/AHP框架体系,为指标层细化提供理论指导,旨在实现瑶绣技艺与文化传播的有效结合,并创新产品服务系统。结论通过构建的瑶绣技艺创新体系理论模型,有助于瑶绣文化的传承与发展,促使相关的文化创意产品得到提炼和升华。基于此设计了瑶族瑶绣技艺音响,从视觉需求、功能需求和互动层次方面进行了创新。为中华民族传统手工艺价值的创造性转化提供了一条可行的新途径,并且有助于推动区域经济的全面发展。

单簧管协奏曲《帕米尔之音》的曲式结构及演奏技巧

单簧管协奏曲《帕米尔之音》的曲式结构,包括乐章布局、主题发展、和声编配及演奏实践中的技术难点与音乐表现特色鲜明,浓厚的民族风情、鲜明的节奏韵律,以及深邃的情感表达,演奏的关键技巧,如音色的控制、气息的运用,以及手指的灵活性等,民族性突出。分析这种特色,能更准确地理解和演绎这部作品,同时也为单簧管教学和演奏艺术的发展贡献新的思路和视角。

铁路全封闭声屏障吸声板安装施工技术研究

针对铁路全封闭声屏障吸声板在安装施工中易与其他工序发生交叉、吸声板尺寸误差难以控制、施工工期紧张等问题,提出了基于改良型安装台车的全封闭声屏障吸声板安装施工工艺。以津兴铁路固永特大桥为工程实例,设计了一种改良型吸声板安装台车,使全封闭声屏障小型构件安装、钢拱架检查检测、整改验收工作不受架设单线箱梁作业制约,并对铁路全封闭声屏障吸声板安装施工技术进行了研究,提出了相应的施工注意事项。研究提出的全封闭声屏障吸声板安装施工方法在提高施工精度和效率、降低施工成本和交叉作业风险上实施效果显著,可为类似工程施工提供参考。

高速公路复合型路基金属结构声屏障施工关键技术

为减少公路两侧噪音,提高周围群众的生活质量。声屏障的设计、施工工作,一直是建筑学界研究的重点方向。在过去,我国主要采用玻璃钢声屏障隔绝高速公路上的噪音,但由于该声屏障声学性能、力学性能及耐老化性能不足等问题,已经难以满足时代发展的迫切需求。在这样的时代背景下,金属结构声屏障因其降噪效果好、经久耐用、安装方便受到广泛关注。鉴于此,本文将依托四川天府新区至邛崃高速绿化项目进行复合型声屏障设置研究,即在噪声源与受声点之间插入开白叶孔铝合金吸声板,使声波在传播过程中受到障碍物影响而引起明显的衰减,旨在减少附近居民所在一定区域的噪音影响,希望能够起到一定的参考作用。

GLOBAL EXISTENCE AND EXPONENTIAL STABILITY OF SOLUTIONS TO THE QUASILINEAR THERMO-DIFFUSION EQUATIONS WITH SECOND SOUND

This article is devoted to the study of global existence and exponential stability of solutions to an initial-boundary value problem of the quasilinear thermo-diffusion equations with second sound by means of multiplicative techniques and energy method provided that the initial data are close to the equilibrium and the relaxation kernel is strongly positive definite and decays exponentially.

Numerical investigation of multi-beam laser heterodyne measurement with ultra-precision for linear expansion coefficient of metal based on oscillating mirror modulation

This paper proposes a novel method of multi-beam laser heterodyne measurement for metal linear expansion coefficient. Based on the Doppler effect and heterodyne technology, the information is loaded of length variation to the frequency difference of the multi-beam laser heterodyne signal by the frequency modulation of the oscillating mirror, this method can obtain many values of length variation caused by temperature variation after the multi-beam laser heterodyne signal demodulation simultaneously. Processing these values by weighted-average, it can obtain length variation accurately, and eventually obtain the value of linear expansion coefficient of metal by the calculation. This novel method is used to simulate measurement for linear expansion coefficient of metal rod under different temperatures by MATLAB, the obtained result shows that the relative measurement error of this method is just 0.4%.

A method for visualizing sound propagation in solids and liquids

A new method for visualizing sound propagation in solids and liquids is described in this paper. The method can show the sound propagation process dynamically in two dimensions. Compared with Schlieren method and dynamic photo-elastic method, this method cannot only show the sound field distribution in liquid and solid at different time moments, but also can be applied to non-transparent solid. In addition, it does not strictly require small residual stress of the sample. The sample can, therefore, be easily made. Because the acoustic field is obtained by indirect measurements, the recording can be affected by the after-shock of the receiving sensor and is prone to the influence of the direct wave of the liquid. Putting an aluminum plate into a liquid, we recorded the compression wave, shear wave and surface wave in the aluminum and, in the liquid we also recorded the direct wave and three head waves, which are directly coupled with the compression wave, shear wave and surface wave respectively. The recording clearly depicts the coupling relationship of the sound waves through the interface between the aluminum and the liquid. Putting a plexiglass into a liquid, we also recorded the sound waves in the plexiglass and the coupling relationship between the sound waves in the two mediums.

Multi-objective Optimization of Non-uniform Beam for Minimum Weight and Sound Radiation

A multi-objective optimization of non-uniform beams is presented for minimum radiated sound power and weight. The transfer matrix method is used to compute the structural and acoustic responses of a non-uniform beam accurately and efficiently. The multi-objective particle swarm optimization technique is applied to search the Pareto optimal solutions that represent various compromises between weight and sound radiation. Several constraints are imposed, which substantially reduce the volume fraction of feasible solutions in the design space. Two non-uniform beams with different boundary conditions are studied to demonstrate the multi-objective optimal designs of the structure. © 2017, Tianjin University and Springer-Verlag Berlin Heidelberg.

A SEMI-ANALYTICAL AND SEMI-NUMERICAL METHOD FOR SOLVING 2-D SOUND-STRUCTURE INTERACTION PROBLEMS

Based on the transfer matrix method and the virtual source simulation technique, this paper proposes a novel semi-analytical and semi-numerical method for solving 2-D sound- structure interaction problems under a harmonic excitation.Within any integration segment, as long as its length is small enough,along the circumferential curvilinear coordinate,the non- homogeneous matrix differential equation of an elastic ring of complex geometrical shape can be rewritten in terms of the homogeneous one by the method of extended homogeneous capacity proposed in this paper.For the exterior fluid domain,the multi-circular virtual source simulation technique is adopted.The source density distributed on each virtual circular curve may be ex- panded as the Fourier's series.Combining with the inverse fast Fourier transformation,a higher accuracy and efficiency method for solving 2-D exterior Helmholtz's problems is presented in this paper.In the aspect of solution to the coupling equations,the state vectors of elastic ring induced by the given harmonic excitation and generalized forces of coefficients of the Fourier series can be obtained respectively by using a high precision integration scheme combined with the method of extended homogeneous capacity put forward in this paper.According to the superposition princi- ple and compatibility conditions at the interface between the elastic ring and fluid,the algebraic equation of system can be directly constructed by using the least square approximation.Examples of acoustic radiation from two typical fluid-loaded elastic rings under a harmonic concentrated force are presented.Numerical results show that the method proposed is more efficient than the mixed FE-BE method in common use.

Measurement of Aerodynamic Sound Source around a Circular Cylinder by Particle Image Velocimetry

The purpose of this paper is to propose a sound localization method as an alternative of the time-resolved particle image velocimetry (PIV) system for detecting the aerodynamic sound source of a circular cylinder in a uniform flow. The sound source intensity of a circular cylinder in a uniform flow is evaluated by measuring the time-derivative of instantaneous velocity field in the flow field using a pair of planar PIV system. It allows the visualization of the sound source intensity distribution, which is the time-derivative of the vector product of vorticity and velocity. The experimental results indicate that the aerodynamic sound is generated from the separation point and the velocity fluctuation in the separating shear layer from the circular cylinder. These results agree qualitatively with the previous findings from experiment and numerical simulation, which supports the validity of the present experimental method for evaluating the sound source intensity distribution.

自适应广义互相关的声阵列炸点定位

为了获取炸点在复杂环境中的精准定位,提出自适应广义互相关声阵列定位算法。该算法改进PHAT加权函数,通过调节加权因子α能够适应更为复杂的实验环境;同时采用两个信号相干解决声源信号较弱时PHAT加权函数趋于无穷大,提高时延估计的准确性以及声源目标的精度。建立五元立体的远场模型以及近场模型,通过实验验证改进的PHAT加权函数在近场和远场时延估计的准确度。实验结果表明,改进的PHAT加权算法相比较于SOCT加权函数、PHAT加权函数具有更好的抗噪性能和更准确的时延估计,减小了声源目标定位的误差。

基于深度学习的低频宽带隔声器件设计

在实际应用中,通常需要将多个声人工结构单元进行组合来实现低频宽带的隔声降噪。这种组合结构往往参数较多,传统的设计方法很难对其进行高效的自动化设计。该文在集总参数模型的基础上,提出了一种基于深度学习的低频宽带隔声器件设计方法,并基于该方法完成了由9个二阶亥姆霍兹共鸣器单元组合而成的低频宽带隔声装置的设计。仿真结果表明,该隔声装置在158522 Hz范围内均具有良好的隔声效果,从而验证了所提出方法的有效性。与传统方法相比,该文所提出的设计方法不仅减少了对设计者专业知识和设计经验的依赖,而且具有更高的设计效率、更强的通用性,未来有望进一步推广至其他声人工结构的设计领域。

球壳换能器电声效率测量方法及声场特性分析

在高强度聚焦超声治疗系统中,换能器的电声效率是治疗剂量控制中的重要参数,其在焦域附近的声场分布同样重要。该研究以球壳聚焦换能器为研究对象,基于辐射力天平法与平面扫描法进行输出声功率的测量,同时测量其激励电功率后计算得到电声效率,并就其声场特性分布以及存在的非线性传播现象进行了简单阐述。两种测量方法测得的电声效率在声学计量的误差允许范围内,实验结果表明两种方法在测量球壳聚焦换能器输出声功率时具备较好的一致性。