MEMS acoustic array embedded in an FPGA based data acquisition and signal processing system

2010 53rd IEEE International Midwest Symposium on Circuits and Systems Pub Date : 2010-08-16 DOI:10.1109/MWSCAS.2010.5548866

M. Turqueti, J. Saniie, E. Oruklu

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引用次数: 14

Abstract

Acoustic arrays are currently utilized in many different applications, ranging from consumer electronics to military systems. Active research on sensors, hardware, algorithms, and system integration specific to acoustic arrays are ongoing on a wide range of engineering fields. Applications such as sound source separation, sound navigation, sound imaging, and speech recognition are few of the many possible applications that benefit acoustic sensor array. Using multiple sensors in arrays has many advantages; however it is also more challenging. As the number of signals increases, the complexity of the electronics to acquire and process the data will grow as well. Such challenge can be quite formidable depending on the number of sensors, processing speed, and complexity of the target application. This paper describes the design and implementation of a 52 microphone MEMS array, embedded in an FPGA platform with real-time processing capabilities. The paper also provides the first results on the use of acoustic array as a source separation system utilizing Independent Component Analysis (ICA) technique.

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基于FPGA的嵌入式MEMS声阵列数据采集与信号处理系统

声学阵列目前用于许多不同的应用，从消费电子到军事系统。针对声阵列的传感器、硬件、算法和系统集成等方面的研究正在广泛的工程领域进行。声源分离、声音导航、声音成像和语音识别等应用是声学传感器阵列众多可能应用中的一小部分。在阵列中使用多个传感器具有许多优点;然而，它也更具挑战性。随着信号数量的增加，获取和处理数据的电子设备的复杂性也将增加。根据传感器的数量、处理速度和目标应用程序的复杂性，这种挑战可能相当艰巨。本文描述了一个52麦克风MEMS阵列的设计和实现，该阵列嵌入在具有实时处理能力的FPGA平台上。本文还提供了利用独立分量分析(ICA)技术将声阵列作为源分离系统的初步结果。

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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2010 53rd IEEE International Midwest Symposium on Circuits and Systems

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