Performing active noise control and acoustic experiments using real test setup via the Internet

2016 13th International Conference on Remote Engineering and Virtual Instrumentation (REV) Pub Date : 2016-02-01 DOI:10.1109/REV.2016.7444506

I. Khan, L. Claesson, L. Håkansson

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Abstract

In In this demo session, it will be shown how to perform Active Noise Control (ANC) and various important Acoustic experiments remotely on the remotely controlled ANC laboratory developed by Blekinge Institute of Technology, Sweden. An important consideration in ANC is the active control's performance dependence on the spatial position of the reference and error sensors, etc. This will be highlighted particularly. This feature is recently implemented using stepper motors which can be controlled via the Internet. It will be demonstrated how to write and upload active noise control algorithms e.g. Filtered-X Least Mean Square (FXLMS) to a digital signal processors (DSP) board. For the acoustic experiments various interesting acoustic properties such as waveforms, speed of sound, mode shapes and sound pressure spectra may be measured. A short guide about the measurements and PowerPoint presentation will be provided during the demo to facilitate for the users. The Lab setup and the equipment will be shown to the user using Skype and a web camera.

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利用互联网上的真实测试装置进行主动噪声控制和声学实验

在本次演示环节中，将展示如何在瑞典Blekinge理工学院开发的远程控制的ANC实验室中进行主动噪声控制(ANC)和各种重要的声学实验。主动控制的性能依赖于参考传感器和误差传感器的空间位置等，这是主动控制中一个重要的考虑因素。这一点将特别强调。这一功能是最近实现使用步进电机，可以通过互联网控制。将演示如何编写和上传主动噪声控制算法，例如滤波- x最小均方(FXLMS)到数字信号处理器(DSP)板。在声学实验中，可以测量各种有趣的声学特性，如波形、声速、模态振型和声压谱。为了方便用户，演示期间将提供有关测量的简短指南和PowerPoint演示。实验室设置和设备将显示给用户使用Skype和网络摄像头。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2016 13th International Conference on Remote Engineering and Virtual Instrumentation (REV)

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