Fixing unit, image forming apparatus, and image forming system
    62.
    发明申请
    Fixing unit, image forming apparatus, and image forming system 失效
    固定单元,成像设备和图像形成系统

    公开(公告)号:US20060147226A1

    公开(公告)日:2006-07-06

    申请号:US11295737

    申请日:2005-12-06

    IPC分类号: G03G15/20

    摘要: An image forming apparatus includes (a) an openable and closable cover, (b) a fixing unit, and (c) a press-contact releasing member. The fixing unit has a first roller, a second roller that can be pressed in contact against the first roller, and a retaining member adapted to retain a state in which the press-contact of the second roller against the first roller has been released by the press-contact releasing member. The fixing unit is attachable/detachable to/from a body of the image forming apparatus. The fixing unit is adapted to fix a developer image, which is formed on a medium that is pinched between the first roller and the second roller being pressed in contact against the first roller via the medium, onto that medium in a state where the cover is closed. The press-contact releasing member is adapted to release the press-contact of the second roller against the first roller in conjunction with an opening movement of the cover.

    摘要翻译: 图像形成装置包括(a)可开闭盖,(b)固定单元,和(c)压接触释放构件。 定影单元具有第一辊,第二辊,其能够被压靠在第一辊上,并且保持构件适于保持第二辊抵靠第一辊的压接已被释放的状态 按压接触释放构件。 固定单元可与图像形成装置的主体相连/拆卸。 固定单元适于将形成在被夹在第一辊和第二辊之间的介质上的显影剂图像固定在该介质上,所述显影剂图像在盖是 关闭。 按压接触释放构件适合于与盖的打开运动一起释放第二辊的压接触第一辊。

    Method of determining processing position in charged particle beam apparatus, and infrared microscope used in the method
    64.
    发明申请
    Method of determining processing position in charged particle beam apparatus, and infrared microscope used in the method 有权
    确定带电粒子束装置的加工位置的方法和该方法中使用的红外显微镜

    公开(公告)号:US20060118733A1

    公开(公告)日:2006-06-08

    申请号:US11286684

    申请日:2005-11-23

    IPC分类号: G01N23/00

    CPC分类号: G01N23/225 H01J2237/317

    摘要: A laser mark which will be the positioning mark for a secondary charged particle image in the charged particle beam apparatus is applied by moving the sample processing/observation area in the charged particle beam apparatus so as to come into the view field while performing an observation by an infrared microscope, and by a using a laser optical system disposed coaxially with an optical observation system, the mark made at the periphery of the processing/observation object area. Next, by a superposition of an infrared transmission image and a CAD data, the processing/observation object area and the laser mark are registered onto the CAD data. And, by a correlation of the registered data read from the charged particle beam apparatus and the secondary charged particle image, it is possible to accurately and easily determine the processing position.

    摘要翻译: 作为带电粒子束装置中的二次带电粒子图像的定位标记的激光标记是通过移动带电粒子束装置中的样品处理/观察区域进行观察的场所,同时进行观察 通过使用与光学观察系统同轴设置的激光光学系统,在处理/观察对象区域的周围形成标记。 接下来,通过红外透射图像和CAD数据的叠加,将处理/观察对象区域和激光标记登记在CAD数据上。 并且,通过从带电粒子束装置读取的登录数据与二次带电粒子图像的相关性,可以准确且容易地确定处理位置。

    Zoom lens system
    65.
    发明授权
    Zoom lens system 有权
    变焦镜头系统

    公开(公告)号:US07054072B2

    公开(公告)日:2006-05-30

    申请号:US11045467

    申请日:2005-01-27

    申请人: Makoto Sato

    发明人: Makoto Sato

    IPC分类号: G02B15/14

    CPC分类号: G02B15/177

    摘要: A zoom lens includes (i) a negative first lens group having a negative meniscus first lens element and a positive meniscus second lens element; and (ii) a positive second lens group having a positive third lens element, a positive fourth lens element, a negative fifth lens element which is cemented to the positive fourth lens element, and a sixth lens element having a weaker refractive power. Zooming is performed by moving the first lens group and the second lens group along the optical axis. The zoom lens system satisfies TL/fW

    摘要翻译: 变焦透镜包括(i)具有负弯月面第一透镜元件和正弯月面第二透镜元件的负第一透镜组; 以及(ii)具有正的第三透镜元件,正的第四透镜元件,胶合到正的第四透镜元件的负的第五透镜元件和具有较弱的屈光力的第六透镜元件的正的第二透镜组。 通过沿着光轴移动第一透镜组和第二透镜组来执行变焦。 变焦透镜系统满足TL / f <1.9; 其中TL是第一透镜组和第二透镜组的长度之和;其中,TL是第一透镜组的长度与第二透镜组的长度的和; 变焦镜头在广角端的组合焦距; 和f II II是第二透镜组的焦距。

    Image processing apparatus, image processing method, program for implementing said method, and storage medium therefor
    67.
    发明授权
    Image processing apparatus, image processing method, program for implementing said method, and storage medium therefor 失效
    图像处理装置,图像处理方法,用于实现所述方法的程序及其存储介质

    公开(公告)号:US06975753B2

    公开(公告)日:2005-12-13

    申请号:US09948660

    申请日:2001-09-10

    IPC分类号: G06T5/00 G06T5/10 G06S9/00

    摘要: In order to eliminate noise from an X-ray image by obtaining transform coefficients of a wavelet transform based upon information contained in tile-by-tile image data and obtaining image data based upon these transform coefficients, the entirety of a pre-processed original image is segmented into a plurality of tiles (S301). Wavelet transform coefficients of each tile obtained by segmentation are output (S302). Each tile is subjected to texture analysis and the results of analysis are output (S303). Next, a coefficient conversion is applied to the wavelet transform coefficients of each tile based upon the results of analysis (S304). High-frequency components among the transform coefficients are subjected to coefficient conversion. Next, an inverse discrete wavelet transform is applied to the wavelet transform coefficients of each area that has undergone conversion, whereby an image from which noise has been eliminated is output (S306).

    摘要翻译: 为了通过基于瓦片图像数据中包含的信息获得小波变换的变换系数并基于这些变换系数获得图像数据来消除来自X射线图像的噪声,整个预处理的原始图像 被分割成多个瓦片(S301)。 输出通过分割获得的每个瓦片的小波变换系数(S 302)。 对每个瓦片进行纹理分析,并输出分析结果(S 303)。 接下来,基于分析结果,对每个瓦片的小波变换系数应用系数转换(S 304)。 变换系数中的高频分量进行系数转换。 接下来,将逆离散小波变换应用于经过转换的每个区域的小波变换系数,由此输出已经消除了噪声的图像(S 306)。

    Portable electronic device, display method, program, and graphical user interface thereof
    68.
    发明申请
    Portable electronic device, display method, program, and graphical user interface thereof 失效
    便携式电子设备,显示方法,程序和图形用户界面

    公开(公告)号:US20050251760A1

    公开(公告)日:2005-11-10

    申请号:US11117526

    申请日:2005-04-29

    摘要: The present invention provides a portable electronic device including an operator block, a display block, detection means, and control means. The operation block has a plurality of operation buttons arranged in matrix. The display block, arranged in the vicinity of the operator block, is capable of displaying a screen divided into a plurality of areas corresponding to the arrangement of the plurality of operation buttons, displaying a cursor for selecting each the areas, and entering the selection by operation of each of the operation buttons. The detection means detects whether any one of the plurality of operation buttons has been operated. The control means positions the cursor to the area corresponding to the detected operation button and displays the cursor on the display block.

    摘要翻译: 本发明提供了一种包括操作块,显示块,检测装置和控制装置的便携式电子设备。 操作块具有多个按矩阵布置的操作按钮。 布置在操作者区域附近的显示块能够显示分为与多个操作按钮的布置相对应的多个区域的屏幕,显示用于选择每个区域的光标,并且通过 每个操作按钮的操作。 检测装置检测多个操作按钮中的任何一个是否已被操作。 控制装置将光标定位到与检测到的操作按钮相对应的区域,并将光标显示在显示块上。

    Matrix switch of optical waveguide type and method for manufacturing the same
    69.
    发明授权
    Matrix switch of optical waveguide type and method for manufacturing the same 失效
    光波导型矩阵开关及其制造方法

    公开(公告)号:US06954562B2

    公开(公告)日:2005-10-11

    申请号:US10755388

    申请日:2004-01-13

    摘要: A matrix switch of an optical waveguide type which has low transmission loss variations and includes uniform grooves with a deep vertical cross section is provided. A switching part for selecting between a light path extending from an input port of a first set of optical waveguides 111-11m to an output port of the first set of optical waveguides 111-11m and a light path extending from an input port of the first set of optical waveguides 111-11m to an output port of a second set of optical waveguides 121-12n is arranged for insertion into a switching groove arranged at each of the intersections of the first set of optical waveguides 111-11m and the second set of optical waveguides 121-12n. Each of the switching grooves is arranged on an imaginary straight line connecting intersections of the first set of optical waveguides 111-11m and the second set of optical waveguides 121-12n.

    摘要翻译: 提供了具有低传输损耗变化并且包括具有深垂直横截面的均匀凹槽的光波导型矩阵开关。 一种切换部件,用于在从第一组光波导11 1〜11 m的输入端口延伸到第一组光学器件的输出端口的光路之间进行选择 波导11 1〜11 3和从第一组光波导11的输入端口延伸的光路11 1〜11&lt; m 2到第二组光波导12 1〜12 N n的输出端口被布置成插入到布置在每个交点处的切换槽中 第一组光波导11 1〜11 3和第二组光波导12 1〜12 N 2 / >。 每个开关槽布置在连接第一组光波导11 1〜11 2和第二组光波导12组合的交叉点的假想直线上 > 1 n