A reconfigurable on-chip multichannel data acquisition and processing (DAQP) system for multichannel signal processing

2013 International Conference on Pattern Recognition, Informatics and Mobile Engineering Pub Date : 2013-04-15 DOI:10.1109/ICPRIME.2013.6496456

S. Velmurugan, C. Rajasekaran

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引用次数: 10

Abstract

The data acquisition and processing architecture covers the most demanding applications in continuous patient monitoring for chronic diseases in medical field. The multichannel data acquisition is essential for acquiring and monitoring the various biomedical signals from biomedical sensors or signals from industrial sensors. The problem is that the data storage and hardware size, so the multichannel data obtained is processed at runtime and stored in an external storage for future reference. The method of implementing the proposed design is the system on-chip via field programmable gate array (SoC-FPGA) to reduce the hardware size and for memory size. The Soc-FPGA attains high resolution and real time processing of data acquisition and signal processing. A four channel data acquisition and processing (DAQP) was designed, developed using the Lab VIEW graphical programming. NI DAQ and NI FPGA module is used to test and implement the design for real time. The module was designed inorder to provide high accuracy, storage and portability.

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用于多通道信号处理的可重构片上多通道数据采集和处理(DAQP)系统

数据采集和处理体系结构涵盖了医疗领域中对慢性病患者持续监测要求最高的应用。多通道数据采集对于采集和监测来自生物医学传感器或工业传感器的各种生物医学信号至关重要。问题在于数据存储和硬件大小，因此获得的多通道数据在运行时处理并存储在外部存储器中以供将来参考。该设计的实现方法是通过现场可编程门阵列(SoC-FPGA)实现片上系统，以减小硬件尺寸和内存大小。该Soc-FPGA实现了数据采集和信号处理的高分辨率和实时性。设计了一个四通道数据采集与处理系统(DAQP)，并利用Lab VIEW图形化编程进行了开发。采用NI DAQ和NI FPGA模块对设计进行实时测试和实现。该模块的设计是为了提供高精度，存储和便携性。

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2013 International Conference on Pattern Recognition, Informatics and Mobile Engineering

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