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    • 1. 发明授权
    • Image file control apparatus, a control method of the image file, and a recording medium
    • 图像文件控制装置,图像文件的控制方法和记录介质
    • US07317822B2
    • 2008-01-08
    • US10785530
    • 2004-02-23
    • Akira Kurahashi
    • Akira Kurahashi
    • G06K9/00
    • A61B6/484A61B6/502A61B6/5282G06T3/40G06T2210/32
    • An image file control method for storing plural sets of image data wherein each of plural sets of image data is obtained in such a way that a body part of a patient having an ID code is radiographed with a magnification by an absorption contrast radiography or a phase contrast radiography so as to obtain a radiation image of the body part and the radiation image is read with a reading sampling pitch by an image reading device so that the image reading device outputs raw image data of the body part; comprising step of; storing plural sets of raw image data by attaching supplemental information to each of plural sets of raw image data, wherein the supplemental information contains an ID code of a patient and at least one of a set of a magnification and the reading sampling pitch and a full size sampling pitch calculated from the set of the magnification and the reading sampling pitch.
    • 一种用于存储多组图像数据的图像文件控制方法,其中获得多组图像数据中的每一个,使得具有ID代码的患者的身体部分通过吸收对比度放射线照相或相位的放大倍率进行放射照相 以获得身体部位的放射线图像,并且通过图像读取装置以读取采样间距读取放射线图像,使得图像读取装置输出身体部位的原始图像数据; 包括步骤: 通过将补充信息附加到多组原始图像数据中的每一组来存储多组原始图像数据,其中补充信息包含患者的ID码以及放大倍数和读取采样间距的集合中的至少一个以及完整的 根据放大倍率和读取采样间距的集合计算的尺寸采样间距。
    • 2. 发明申请
    • Image processing apparatus, image processing method and image processing program
    • 图像处理装置,图像处理方法和图像处理程序
    • US20060222225A1
    • 2006-10-05
    • US11390784
    • 2006-03-28
    • Akira Kurahashi
    • Akira Kurahashi
    • G06K9/00
    • G06F19/321
    • An image processing apparatus includes: an image storing section to store images imaged by modalities; an image selecting section to allow a user to select an image to be displayed out of images stored in the image storing section; an image processing condition storing section to store a plurality of different kinds of image processing conditions; an image processing section to execute image processing by application of the plurality of different kinds of image processing conditions to selected image; and a display controlling section to switch each of images generated by image processing, under application of the plurality of different kinds of image processing conditions to the selected image, and to display it on the same display screen.
    • 一种图像处理设备包括:图像存储部分,用于存储通过模态成像的图像; 图像选择部分,用于允许用户从存储在图像存储部分中的图像中选择要显示的图像; 图像处理条件存储部分,用于存储多种不同种类的图像处理条件; 图像处理部,通过将多种不同种类的图像处理条件应用于选择图像来执行图像处理; 以及显示控制部分,用于在将多种不同种类的图像处理条件应用于所选择的图像的同时,将通过图像处理生成的每个图像切换并显示在相同的显示屏幕上。
    • 5. 发明授权
    • Constant speed traveling apparatus for vehicle with inter-vehicle
distance adjustment function
    • 具有车间距离调节功能的车辆恒速行驶装置
    • US5396426A
    • 1995-03-07
    • US111401
    • 1993-08-25
    • Katsuhiko HibinoMitsufumi HashimotoAkira Kurahashi
    • Katsuhiko HibinoMitsufumi HashimotoAkira Kurahashi
    • B60K31/00G06F15/50
    • B60W30/16B60K31/0008
    • An apparatus includes an inter-vehicle distance sensor for measuring a distance from a self vehicle to a vehicle traveling ahead, and a relative speed is calculated on the basis of the inter-vehicle distance data detected by the inter-vehicle distance sensor. When a variation of the relative speed is small, it is recognized that a vehicle is present ahead of the self vehicle. An acceleration/deceleration is obtained from a stored acceleration/deceleration basic map on the basis of a difference between the inter-vehicle distance and a target inter-vehicle distance, and the relative speed with the vehicle ahead, and an acceleration/deceleration correction coefficient is calculated from a correction map set with adjustment constants in correspondence with the measured inter-vehicle distance. An acceleration/deceleration is calculated by multiplying the acceleration/deceleration with the correction coefficient. A new target vehicle speed is calculated on the basis of the calculated acceleration/deceleration, and a previously set target vehicle speed.
    • 一种装置包括:车辆间距离传感器,用于测量从自车向前行驶的车辆的距离,并且基于由车辆间距离传感器检测到的车辆间距离数据来计算相对速度。 当相对速度的变化较小时,认识到车辆存在于自车辆之前。 基于车辆间距离与目标车间距离之间的差异以及与前方车辆的相对速度,加速/减速校正系数,从存储的加速/减速基准图获得加速/减速 由具有与测量的车辆间距离对应的调整常数设置的校正图计算。 通过将加减速与校正系数相乘来计算加减速。 基于所计算的加速度/减速度和先前设定的目标车速来计算新的目标车速。
    • 10. 发明授权
    • Optical radar apparatus
    • 光学雷达装置
    • US5589930A
    • 1996-12-31
    • US204180
    • 1994-02-25
    • Akira KurahashiHirosi AndoToshiyuki KaneiwaYoshiaki Hoashi
    • Akira KurahashiHirosi AndoToshiyuki KaneiwaYoshiaki Hoashi
    • G01S7/481G01S17/93G01C3/08G03B3/00
    • G01S17/936G01S7/4813
    • The invention aims to increase an expansion angle in a road surface direction in a short-distance area without setting a detection range one-sidedly and without sacrificing a maximum detection distance.A double-focus lens is integrally formed by disposing a short-focus portion in the vicinity of a center and a long-focus portion on the periphery of the short-focus portion. A light source is disposed at a distance slightly shorter than the focal length of the short-focus portion of the double-focus lens. When light is emitted from the light source to the double-focus lens, light emerging from the short-focus portion has a small expansion angle such as not to diffuse largely. Therefore, the emerging light can be caused to reach a long distance. On the other hand, light emerging from the long-focus portion has a large expansion angle such as to diffuse to some extent. Therefore, the emerging light can be caused to travel over a short-distance area and, more particularly, over an area extended in a widthwise direction of a road surface.
    • PCT No.PCT / JP92 / 01151 Sec。 371日期1994年2月25日 102(e)1994年2月25日PCT PCT 1992年9月9日PCT公布。 公开号WO93 / 06505 日本1993年1月4日本发明旨在增加短距离区域中的路面方向的扩张角度,而不会单独地设定检测范围而不牺牲最大检测距离。 通过在短焦部分的周围设置中心附近的短焦部分和长焦点部分来整体形成双焦点透镜。 光源设置在比双焦点透镜的短焦部分的焦距稍短的距离处。 当光从光源发射到双焦点透镜时,从短焦部分出射的光具有较小的扩展角,例如不会大量扩散。 因此,出现的光线可能会达到很长的距离。 另一方面,从长焦点部分出射的光具有大的扩展角,例如在某种程度上扩散。 因此,可以使出现的光线在短距离区域上移动,更具体地,在路面的宽度方向上延伸的区域上。