1引 言心磁图(Magnetocardiography)记录的是由于心脏运动而产生的磁场信号.心磁信号的强度一般只有几十pT,是非常微弱的磁信号,超导量子干涉器(SQUID)作为一种测...
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... maduromycosis 足分支菌病 magnetocardiography 心磁描记术 magnetoencephalography 磁脑电描记法 ...
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... magnetocardiograph 心磁波描记器 心磁计 磁体心脏记录仪 magnetocardiography 心磁图检查 magnetocentraloffice 磁石式电话总局 ...
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As magnetocardiography is widely applicable in medical treatment, noise cancellation technique in MCG has been a hot problem to solve as soon as possible which is extremely significant for SQUIDS' application on biomedicine.
心磁信号消噪处理已经成为心磁图仪在医疗中获得广泛应用急需解决的热点问题,所以解决这个问题对SQUID在生物医学方面的研究具有重大的意义。
参考来源 - 超导量子干涉仪应用研究·2,447,543篇论文数据,部分数据来源于NoteExpress
以上来源于: WordNet
How to extract the magnetocardiography (MCG) signals from the background noises and attenuate the noise is the key element of MCG signal processing.
将心磁信号从干扰噪声中加以提取并有效地消除噪声干扰是心磁信号处理中尤为重要的环节。
In this paper, an analysis of the basic principles of superconducting magnetocardiography system was presented, as well as its core component of SQUID.
本文主要分析了超导心磁图仪系统的基本原理及其核心部件超导量子干涉仪。
Objective to appraise the diagnostic value of magnetocardiography (MCG) in coronary heart disease (CHD) patients with normal resting electrocardiogram (ECG).
目的探讨心磁图(mcg)法对静息心电图正常的冠心病患者的诊断价值。
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