acoustic engineering

英 [əˈkuːstɪk ˌendʒɪˈnɪərɪŋ] 美 [əˈkuːstɪk ˌendʒɪˈnɪrɪŋ]

网络  声学工程

计算机



双语例句

  1. Messrs Zhang and Pang met when they were studying the technology, known as thin-film bulk acoustic resonator or FBAR, as electrical engineering doctoral students in California.
    张浩和庞慰是在他们作为电气工程博士生在加利福尼亚研究涉案技术&薄膜体声波谐振器(FBAR)技术时认识的。
  2. The theoretical and simulation analysis about acoustic signal processing in multi-path channel and the engineering software design are given in the dissertation.
    该系统采用主动工作方式,本文系统地研究了在多途信道中对声学信号进行处理的理论研究和仿真分析及工程软件设计。
  3. In underwater acoustic engineering, improving precision of acoustic measurement for materials in free-field is very important in design of acoustic stealthy of underwater vehicle.
    水声工程中,改善和提高自由场材料声学测试精度和可靠程度对水下航行器的声隐身设计具有非常重要的工程应用价值和现实意义。
  4. Vehicle Acoustic Target Detection Identification Technology and Engineering Realization
    车辆声目标探测识别技术及工程实现
  5. Application of Multi-channel Acoustic Emission System in Mining Engineering
    多通道声发射监测系统在矿山安全开采中的应用
  6. Architecture Acoustic Design Software ODEON and Its Engineering Application
    建筑声学设计软件ODEON及其在工程上的应用
  7. Application of the high-resolution acoustic survey to offshore engineering
    高分辨率的声波探测在浅海工程中的应用
  8. The Application of Acoustic Emission to Nuclear Power Engineering
    声发射在核动力工程中的应用
  9. Acoustic processing in liquids and Acoustic cavitation engineering
    液体中的声处理应用和声空化工程
  10. Study on acoustic vector sensor signal processing is one of the most attractive fields of underwater acoustic engineering. Analyzing and processing the datas measured by acoustic vector sensor is the key to make its advantages.
    声矢量传感器技术正成为水声工程领域令人瞩目的研究方向之一,对其接收到的声矢量信号进行分析处理成为体现声矢量传感器优越性的关键。
  11. From noise to information-some applications of acoustic emission techniques in chemical engineering processes
    从噪声到信息-声发射技术在化工过程中的应用
  12. The theory and methods of underwater multi-target tracking in guidance system involves underwater acoustic engineering, signal processing, modern control theory, precise guidance theory, and so on. The study on these theories and methods is very important in many fields.
    水下制导多目标跟踪理论与方法涉及水声工程、信号处理、现代控制理论及精确制导等领域,对该理论和方法的研究有着重要的现实意义。
  13. Abstract Application of acoustic emission techniques in mining engineering, petroleum engineering, civil engineering, engineering geology and basic study of rock properties is increasingly expanded.
    声发射技术在采矿工程、石油工程、土木工程、工程地质和岩石性质基础研究中得到越来越多的应用。
  14. Torpedo guidance technology involves Signal& Information Processing, Underwater Acoustic Engineering, Weapon System and Application Engineering, Modern Modeling and Simulation, and so on.
    它涉及信号与信息处理、水声工程、武器系统与运用工程、现代建模与仿真等多个学科,对其进行仿真研究具有重要的理论及现实意义。
  15. Preliminary applications of acoustic technique for engineering rock measurements
    声波技术在工程岩体测试中的初步应用
  16. Structure vibration and acoustic radiation problems are focused on in engineering always There are resolution method and numerical method for resolving the problems.
    结构振动与声辐射问题在工程中一直受到人们的关注。其分析方法分为解析法和数值法。
  17. Acoustic characteristics and Application of Advanced Composites in Underwater Acoustic Engineering
    先进复合材料的声学特性及其在水声工程中的应用
  18. Analysis for the false location of acoustic emission in the engineering pipe
    工业管道声发射伪定位分析
  19. Design and Construction for Subgrade Acoustic Barrier Engineering of Qinhuangdao-Shenyang Special Passenger Line
    秦沈客运专线路基声屏障工程设计与施工
  20. Acoustic measurement and analysis in Nanjing Subway Engineering Investigation
    南京地铁工程勘察中声波测试与分析
  21. It has many advantages such as good directivity at low frequency and strong ability to immunize isotropic noise and can provides new ideas and methods for solving practical underwater acoustic engineering problems.
    矢量水听器具有良好的低频指向性、较强的抑制各向同性噪声能力等诸多优点,也为解决水声问题提供了新的思路和方法。
  22. Because of highly complexity of background noise and room reverberations in real environment, the application of acoustic source localization technology in engineering has the disadvantage of low precision, large calculating amount, and high cost.
    但基于现实环境中噪声与混响的高度复杂性,使得声源定位技术在工程应用领域存在精度不够、运算量大、系统成本高等问题。
  23. Some acoustic engineering problems which can not be predicted previously can be simulated currently by using the numerical methods, and the computational acoustics has become a key technology of forecasting and controlling of noise.
    一些声学领域中原本不可能预测的工程实际问题可以借助数值方法来进行仿真。声学数值计算己成为噪声控制和预测的关键技术。
  24. Now, the rapid development of the electronic circuit technology, design a broadband, high-frequency underwater acoustic signal transmitter in practical engineering is very important.
    在电子电路技术飞速发展的今天,设计一个宽带、大功率的水声信号发射机在实际工程应用中显得特别重要。
  25. Acoustic material components are widely used, and they are vital underwater parts in acoustic engineering. Different application backgrounds have different requirements on acoustic materials performance.
    水下声学材料构件是水声工程中使用广泛且至关重要的水下部件,不同的应用背景对材料声学性能有特殊的要求。
  26. The map of underwater electronic information is an applied technology based on underwater acoustic engineering, navigation technology, geographic information systems, computer and other subjects.
    水声电子信息图是以水声工程、导航技术、地理信息系统、计算机等多门学科为依托的应用性技术。
  27. The software of sonar information auxiliary system for naval ships is a kind of applied research with an integration of marine engineering, underwater acoustic engineering, navigation and positioning, computer, geographic information system, and other knowledge and technologies.
    艇用声纳信息辅助系统软件是综合了多门学科知识的一种应用研究,涉及到海洋工程、水声工程、导航定位、计算机、地理信息系统等学科知识和技术。
  28. Finally, according to my own understandings of the Acoustic Emission signal, I proposed some meaningful research directions as well as the prospects and difficulties of the applications of the Acoustic Emission technology in engineering, against which some theoretical solutions were given.
    最后,结合个人对声发射现象的研究认识,展望今后声发射现象发展的方向,以及声发射检测技术在工程上的应用前景及困难,给出理论上的解决方法。
  29. With the development of material science, viscoelastic polymer materials and other high performance absorption new materials are applied widely in the absorption and noise reduction underwater acoustic engineering field.
    随着材料科学的进步,粘弹性高分子材料等高性能吸声新材料在吸声降噪等水声工程领域的应用日益广泛。