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    • 62. 发明授权
    • Electronic endoscope system
    • 电子内窥镜系统
    • US06690409B1
    • 2004-02-10
    • US09396374
    • 1999-09-15
    • Tadashi Takahashi
    • Tadashi Takahashi
    • H04N718
    • H04N7/183
    • In an electronic endoscope system, a flexible scope has a solid image sensor provided at a distal end thereof, to generate image-pixel signals. A proximal end of the scope is detachably connected to a video-signal processing unit, which produces a video signal based on the image-pixel signals. A monitor reproduces an image in accordance with the video signal. A displaying-size changer changes a size of a displaying-area of the image on a screen of the monitor to another size and vice versa. A pointer-image generator generates a pointer image on the monitor screen. A pointer-image controller controls a shifting of the pointer image on the monitor screen, and includes a pointer-image-position converter that converts a position of the pointer image on the monitor screen in accordance with the size-change of the displaying-area of the image on the monitor screen, such that two positions, indicated by the pointer image on the two-sized displaying-areas, correspond to each other.
    • 在电子内窥镜系统中,柔性镜具有设置在其远端的实心图像传感器,以产生图像像素信号。 示波器的近端可拆卸地连接到视频信号处理单元,该视频信号处理单元基于图像像素信号产生视频信号。 监视器根据视频信号再现图像。 显示尺寸改变器将监视器的屏幕上的图像的显示区域的大小改变为另一尺寸,反之亦然。 指针图像生成器在监视器屏幕上生成指针图像。 指针图像控制器控制指示器图像在监视器屏幕上的偏移,并且包括指针图像位置转换器,其根据显示区域的尺寸变化而在监视器屏幕上转换指针图像的位置 ,使得由两个尺寸的显示区域上的指针图像指示的两个位置彼此对应。
    • 64. 发明授权
    • Device for controlling an amount of light of a lighting unit for an endoscope
    • 用于控制用于内窥镜的照明单元的光量的装置
    • US06524236B2
    • 2003-02-25
    • US09867433
    • 2001-05-31
    • Ryoji HondaMakoto TakadaTadashi Takahashi
    • Ryoji HondaMakoto TakadaTadashi Takahashi
    • A61B1045
    • G01J1/08A61B1/045A61B1/0638A61B1/0669A61B1/07G01J1/04G01J1/0437G01J1/044G01J1/0492G02B23/2461G02B26/02H04N5/2354H04N2005/2255
    • A device for controlling an amount of light of a lighting unit for use in an endoscope that is used to view an image of an object. A light shielding system shields light generated by a light source and transmitted to the endoscope and a stepping motor drives the light shielding system for a plurality of predetermined time intervals. A system detects a brightness of the image during each of the plurality of predetermined time intervals and an input system inputs one of a plurality of desired brightnesses of the image. A generating system generates a predetermined number of pulses during each of the plurality of predetermined time intervals, the predetermined number of pulses being transmitted to the stepping motor and a system determines an angular position of the light shielding system. A setting system sets one of a plurality of allowed brightness ranges of the image in response to the determined angular position of the light shielding system and a system determines whether the detected brightness is within the set one of the plurality of allowed brightness ranges.
    • 一种用于控制用于观察物体的图像的内窥镜中使用的照明单元的光量的装置。 遮光系统屏蔽由光源产生的光并传输到内窥镜,并且步进电机以多个预定时间间隔驱动遮光系统。 系统在多个预定时间间隔的每一个期间检测图像的亮度,并且输入系统输入图像的多个期望亮度中的一个。 生成系统在多个预定时间间隔的每一个期间产生预定数量的脉冲,预定数量的脉冲被发送到步进电机,并且系统确定遮光系统的角度位置。 设置系统响应于所确定的遮光系统的角度位置来设置图像的多个允许的亮度范围中的一个,并且系统确定检测到的亮度是否在多个允许的亮度范围的设定的一个之内。
    • 65. 发明授权
    • Electronic endoscope
    • 电子内窥镜
    • US06414710B1
    • 2002-07-02
    • US09337338
    • 1999-06-21
    • Tadashi TakahashiRyo Ozawa
    • Tadashi TakahashiRyo Ozawa
    • A61B106
    • H04N7/183A61B1/05
    • In an electronic endoscope, a flexible scope has an image sensor provided at a distal end thereof, and an optical light guide extending therethrough. The scope is detachably connectable, at a proximal end thereof, to a processing unit, which processes image-pixel signals successively read from the image sensor. A light source is provided in the processing unit such that light, emitted from the light source, is guided through the guide and radiates from the distal end of the scope. An aperture-stop is associated with the source that regulates the radiation of light from the distal end of the scope. A histogram generator generates a luminance-signal-histogram based on the processed signals. An average luminance level-value is approximately calculated based on luminance signals exhibiting thinned luminance levels extracted from the histogram. The aperture-stop is controlled in accordance with the approximate average luminance level-value, such that an image having a constant brightness level is reproduced based on the processed signals.
    • 在电子内窥镜中,柔性镜具有设置在其远端的图像传感器和延伸穿过其中的光学光导。 该范围在其近端可拆卸地连接到处理单元,其处理从图像传感器连续读取的图像像素信号。 在处理单元中提供光源,使得从光源发射的光被引导通过引导件并从示波器的远端辐射。 孔径光阑与调节来自示波器远端的光的辐射源相关联。 直方图生成器基于经处理的信号生成亮度信号直方图。 基于从直方图提取的表现出减薄的亮度水平的亮度信号近似地计算平均亮度水平值。 根据近似平均亮度水平值控制孔径光阑,使得基于处理的信号再现具有恒定亮度水平的图像。
    • 67. 发明授权
    • Apparatus for manufacturing metallic fibers and method of manufacturing colored metallic fiber
    • 金属纤维的制造装置及制造有色金属纤维的方法
    • US06338780B2
    • 2002-01-15
    • US09756210
    • 2001-01-09
    • Tadashi TakahashiYukio AoikeTatsuo Hirayama
    • Tadashi TakahashiYukio AoikeTatsuo Hirayama
    • C30B3002
    • C25F7/00B21C37/047Y10T428/12333Y10T428/12424Y10T428/12431Y10T428/12444Y10T428/12465Y10T428/12486Y10T428/1259
    • A method of manufacturing a metallic fiber in which from a convergent extended wire, which is formed by a metallic fiber and a matrix member which is formed of a metallic material and whose dissolvability is higher than the dissolvability of the metallic fiber, the matrix member is continuously dissolved and removed by an electrolytic processing in a plurality of electrolytic tanks which are arranged in the conveying direction of the convergent extended wire, wherein: the convergent extended wire is passed through electrolytes in the plurality of electrolytic tanks, which are arranged in the shape of a gentle convex arch at the vertical direction upper side which includes the conveying passage of the convergent extended wire, the convergent extended wire is passed above a plurality of feeding devices which are provided at the outer sides of the electrolytes and which are disposed in the same arch-shape so as to correspond to the electrolytic tanks, in each of the plurality of electrolytic tanks, the metallic fiber is maintained in one of a cathode reduction area and a passivation area, or alternatively, anode current is maintained at a predetermined potential which is closer to 0, and the matrix member is anode-electrolyzed. At this time, a method of manufacturing the twine of metallic fibers, further including the step of: intertwining the convergent extended member in the unit of two to four before the electrolytic processing, while the convergent extended member is formed by a forming device in a spiral shape whose diameter is larger than the diameter of a closely-intertwined twine.
    • 一种金属纤维的制造方法,其特征在于,从由金属纤维形成的会聚延长线和由金属材料形成的矩阵构件,其溶解性高于金属纤维的溶解性的金属纤维的矩阵构件为 通过在会聚延长线的输送方向上配置的多个电解槽中的电解处理连续地溶解除去,其中:会聚延长线穿过多个电解槽中的电解质,其形状为 在包括会聚延长线的输送通道的垂直方向上侧具有平缓的凸拱,收敛的延伸线在设置在电解质外侧的多个供给装置的上方通过, 相同的拱形,以便在多个电解中的每一个中对应于电解槽 金属纤维保持在阴极还原区域和钝化区域中的一个中,或者,阳极电流保持在更接近0的预定电位,并且基体元件被阳极电解。 此时,制造金属纤维线的方法,还包括以下步骤:在电解处理之前将会聚延伸构件缠绕在二至四单位之间,而会聚延伸构件由成形装置形成在 螺旋形的直径大于紧密缠绕的麻绳的直径。
    • 68. 发明授权
    • Electronic endoscope
    • 电子内窥镜
    • US06322497B1
    • 2001-11-27
    • US09471380
    • 1999-12-23
    • Tadashi Takahashi
    • Tadashi Takahashi
    • A61B1045
    • G06T11/60A61B1/00009A61B1/00039A61B1/0005
    • An electronic endoscope of the present invention includes a video-scope having an image sensor, a video-processor, to which a proximal end of the video-scope and a monitor are respectively connected, a character and mark generation controller, and an area-image changer. The character and mark generation controller generates character signals and indicator-mark signals, and then feeds the character signals and the indicator-mark signals to the monitor. The image-area changer changes a size of an image-area of the object image displayed on the screen of the monitor to another size, thus the object image is selectively displayed within one of plural image-areas on the screen in accordance with a size change of the image-area. The characters and mark generation controller includes a display-position adjuster that determines display-positions of the character information and the indicator-mark on the basis of a reference table, in which a correspondence relationship between each of the image-area and each of the display-positions of the character information and the indicator-mark is indicated.
    • 本发明的电子内窥镜包括具有图像传感器,视频处理器的视频范围,视频范围的近端和监视器分别连接到该视频处理器,字符和标记产生控制器, 图像更换器 字符和标记产生控制器产生字符信号和指示标记信号,然后将字符信号和指示标记信号馈送到监视器。 图像区域更换器将显示在监视器的屏幕上的对象图像的图像区域的尺寸改变为另一尺寸,从而根据尺寸在屏幕上的多个图像区域中的一个中选择性地显示对象图像 更改图像区域。 字符和标记生成控制器包括显示位置调整器,其基于参考表确定字符信息和指示符标记的显示位置,其中每个图像区域和每个图像区域之间的对应关系 指示字符信息和指示符标记的显示位置。
    • 69. 发明授权
    • Electronic endoscope
    • 电子内窥镜
    • US06319198B1
    • 2001-11-20
    • US09428467
    • 1999-10-28
    • Tadashi Takahashi
    • Tadashi Takahashi
    • A01B106
    • A61B1/045A61B1/07
    • In an electronic endoscope, a video-scope has an image sensor for photographing an object image and a light guide for guiding light toward an object. A video-processor has a light source, a stop, a signal conversion circuit, a histogram processing circuit, and a CPU. When the video-scope is connected to the video-processor, light emitted from the light source is guided by the light guide and radiates from a distal end of the light guide, so that an object image is formed on the image sensor. The object image is then converted into the image-pixel signals. Further, a representative value, which relates to a brightness of the object image, is calculated on the basis of the image-pixel signals through the signal conversion circuit, the histogram processing circuit, and the CPU. Then, a control of light radiating from the distal end of the light guide is performed at regular time-intervals. Namely, the stop is controlled such that the brightness of the object image is proper. In this case, when the representative value is not newly calculated, the stop is driven.
    • 在电子内窥镜中,视频范围具有用于拍摄对象图像的图像传感器和用于将光引向物体的光导。 视频处理器具有光源,停止,信号转换电路,直方图处理电路和CPU。 当视频范围连接到视频处理器时,从光源发出的光由光导引导并从光导的远端辐射,使得在图像传感器上形成物体图像。 然后将对象图像转换成图像像素信号。 此外,基于通过信号转换电路,直方图处理电路和CPU的图像像素信号来计算与目标图像的亮度有关的代表值。然后,对从 以规则的时间间隔执行光导的远端。 即,停止被控制,使得对象图像的亮度适当。 在这种情况下,当不重新计算代表值时,停止被驱动。