首页> 外国专利> MAGNETIC RESONANCE IMAGING APPARATUS: Y TYPE MR ANALYSIS METHOD A, Y TYPE MR ANALYSIS METHOD B, Y TYPE GAMMA CORRECTION IMAGE, REVERSED IMAGE OF Y TYPE GAMMA CORRECTION IMAGE, Y TYPE MAGNETIC RESONANCE IMAGING ANALYSIS, POSTOPERATIVE Y TYPE MR ANALYSIS METHOD A, PRE-OPERATIVE Y TYPE MR ANALYSIS METHOD A, PRE-OPERATIVE Y TYPE MR ANALYSIS METHOD B, AND PARTIALLY UNIFORM TYPE AND MOTTLED TYPE PRE-OPERATION Y TYPE MR ANALYTIC DIAGNOSIS

MAGNETIC RESONANCE IMAGING APPARATUS: Y TYPE MR ANALYSIS METHOD A, Y TYPE MR ANALYSIS METHOD B, Y TYPE GAMMA CORRECTION IMAGE, REVERSED IMAGE OF Y TYPE GAMMA CORRECTION IMAGE, Y TYPE MAGNETIC RESONANCE IMAGING ANALYSIS, POSTOPERATIVE Y TYPE MR ANALYSIS METHOD A, PRE-OPERATIVE Y TYPE MR ANALYSIS METHOD A, PRE-OPERATIVE Y TYPE MR ANALYSIS METHOD B, AND PARTIALLY UNIFORM TYPE AND MOTTLED TYPE PRE-OPERATION Y TYPE MR ANALYTIC DIAGNOSIS

机译：磁共振成像设备：Y型MR分析方法A，Y型MR分析方法B，Y型伽马校正图像，Y型伽马校正图像的逆向图像，Y型磁共振成像分析，术后Y型MR分析方法A，预手术Y型MR分析方法A，手术前Y型MR分析方法B，部分一致和混合型手术前Y型MR分析

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摘要

PPROBLEM TO BE SOLVED: To solve the problem that it is difficult to distinguish each tissue from the others on an image at a site where a plurality of tissue images of similar signal intensities coexist in an optional area in the case of photographing a living body normally by an MRI system. PSOLUTION: An optional part of the image photographed by the MRI system is cut off, and the center value and an average value of the luminance level of the cut-off image is measured. The center value is divided by the average value, and this value is denoted as (a). The value (a) is divided by a monitor gamma, and this value is denoted as (b). The cut-off image is converted so as to set the brightest part to be high light and so as to set the darkest place to be darkness, and the value (b) is inputted to a gamma correction dialog to form a converted image and to reverse white and monochromatic gradation. It is converted from a gray scale to RGB color to select hue correction variation. With respect to intermediate colors, intermediate level correction is carried out by hue correction by greenonce, yellowtwice, cyanogenonce, blue3 times, red5 times, magentatwice in order, and brightness is adjusted. Thus, color-corrected analytic image is formed. PCOPYRIGHT: (C)2006,JPO&NCIPI

机译：

要解决的问题：解决在拍摄影像的情况下，在可选区域中存在多个信号强度相似的组织图像并存的部位，很难在图像上区分每个组织的问题。活体通常通过MRI系统检查。

解决方案：MRI系统拍摄的图像的可选部分被切掉，并测量切出图像的亮度值的中心值和平均值。中心值除以平均值，该值表示为（a）。值（a）除以监视器伽马，该值表示为（b）。转换剪切图像以便将最亮的部分设置为高亮度，将最暗的部分设置为黑暗，并将值（b）输入到伽玛校正对话框以形成转换后的图像，并反转白色和单色渐变。它从灰度转换为RGB颜色以选择色调校正变化。对于中间色，通过色相校正来进行中间水平校正，所述色相校正是通过绿色，黄色两次，氰绿色，蓝色3次，红色5次，品红色两次，并且调节亮度。因此，形成了色彩校正的分析图像。

版权：（C）2006，JPO＆NCIPI 展开▼

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公开/公告号JP2006136587A

专利类型
公开/公告日2006-06-01

原文格式PDF
申请/专利权人 YOSHIDA YUICHI;
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申请/专利号JP20040329957
发明设计人 YOSHIDA YUICHI;
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申请日2004-11-15
分类号A61B5/055;G06T1;
国家 JP
入库时间 2022-08-21 21:54:00

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