低场磁共振信号传输和接收处理平台

Zesong Jiang, Muhang Zhang, Qing Zhang, Yuchong Xie
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引用次数: 0

摘要

在磁共振成像(MRI)中,光谱仪是磁共振成像系统的基本组成部分,负责传输激发氢原子核的射频(RF)脉冲,并随后采集磁共振信号进行处理。然而,由于商业系统的专有性质,有关该组件的详细信息在很大程度上仍无法获取。为了填补这一空白,我们提出了一种基于 FPGA 的平台,专门用于低场 MRI 应用中的 MRI 信号传输和接收。此外,通过适当的芯片替换,该平台还可用于中场和高场核磁共振成像系统。该平台利用直接数字合成(DDS)技术生成射频脉冲,可灵活、快速、精确地调整软脉冲参数,以满足 MRI 系统的特定要求。此外,该平台通过数字下变频技术处理磁共振成像信号,并利用 CIC 和 FIR 滤波器获得基带信号。对该平台的实验测试取得了可喜的成果。此外,值得注意的是,通过更换相关芯片,该系统还可用于中场和高场核磁共振成像系统。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
A Low-Field Magnetic Resonance Signal Transmission and Reception Processing Platform
In magnetic resonance imaging (MRI), the spectrometer is a fundamental component of MRI systems, responsible for the transmission of radiofrequency (RF) pulses that excite hydrogen nuclei and the subsequent acquisition of MR signals for processing. However, detailed knowledge about this component remains largely inaccessible due to the proprietary nature of commercial systems. To address this gap, we present an FPGA-based platform specifically designed for MRI signal transmission and reception in low-field MRI applications. Additionally, with appropriate chip replacements, this platform can be adapted for use in mid- and high-field MRI systems. This platform leverages Direct Digital Synthesis (DDS) technology to generate RF pulses, offering the flexibility to quickly and precisely adjust soft pulse parameters to meet the specific requirements of the MRI system. Additionally, the platform processes MRI signals through digital downconversion techniques and utilizes CIC and FIR filters to obtain baseband signals. Experimental testing of this platform has yielded promising results. We hope that this work will inspire further research and development in the field of MRI spectrometer design. Furthermore, it is worth noting that with the replacement of relevant chips, this system can also be adapted for use in mid- and high-field MRI systems.
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