期刊文献+

用于功能核磁共振数据处理的TCA方法 被引量:7

Time cluster analysis method used in fMRI data processing
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摘要 本文详细讨论了两种基于数据统计的时间簇分析 (TCA)方法 ,该方法将连续采集的多幅功能核磁共振数据一次性整体处理 ,其中OTCA统计像素中最大值的个数 ,MTCA统计的是像素中所有最大值的灰度累加和 ,两种方法均可有效地计算得出脑功能活动发生变化的起始时间和持续时间 ,该方法具有算法简洁、易于实现、计算量小、计算结果物理意义明显等特点。此外 ,本文在分析、讨论两种TCA算法局限性、给出算法提出者的实验结果的同时 ,还给出了本文作者的实验结果 ,实验效果明显。 Two types of time cluster analysis methods used in fMRI data processing are discussed in this paper, these methods handle all the collected data as a whole in one time, OTCA method is based on number of pixels reaching their extremes at each time point and MTCA is based on the sum of intensity values of pixels reaching their extremes. In a word, the two methods all can detect the responses of brain after the stimulation, and the results almost were same (the peaks appeared almost at the same time and last same time), that showed the two methods are all effective in detecting when the response occurred and how long it lasted. The two methods are all simple, easily to implement, and the quantity of computation is low, the result's meaning is clarify. The limitations of the two methods are also talked over in this paper, and the experimental results of both the method's provider and the authors are given at the same time.
出处 《中国医学影像技术》 CSCD 2004年第1期122-124,共3页 Chinese Journal of Medical Imaging Technology
基金 国家自然科学基金项目的支持 (30 370 4 32 )
关键词 FMRI 0TCA MTCA fMRI OTCA MTCA
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参考文献2

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同被引文献58

  • 1张志强,王世杰,卢光明.功能磁共振数据处理分析的原理及应用[J].中国医学影像技术,2004,20(10):1632-1635. 被引量:12
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  • 7Witjes H, Rijpkema M, Graaf MVD, et al. Muhispectral magnetic resonance image analysis using principal component and linear discriminant analysis [J]. J Magn Reson Imaging, 2003, 17(2): 261-269.
  • 8Baumgartner R, Ryner L, Richter W, et al. Comparison of two exploratory data analysis methods for fMRI: fuzzy clustering vs principal component analysis [J]. Magn Reson Imaging, 2000, 18 (1): 89-94.
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  • 10Schmithorst VJ, Holland SK. Comparison of three methods for generating group statistical inferences from independent component analysis of functional magnetic resonance imaging data [J]. J Magn Reson Imaging, 2004, 19(3): 365-368.

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