公开(公告)号：US20080129873A1

公开(公告)日：2008-06-05

申请号：US11722460

申请日：2005-12-21

申请人： Takahiro Nagano ,  Tetsujiro Kondo ,  Tsutomu Watanabe ,  Junichi Ishibashi ,  Hisakazu Shiraki ,  Naoki Fujiwara ,  Masanori Kanemaru ,  Shinichiro Kaneko ,  Yasuhiro Suto

发明人： Takahiro Nagano ,  Tetsujiro Kondo ,  Tsutomu Watanabe ,  Junichi Ishibashi ,  Hisakazu Shiraki ,  Naoki Fujiwara ,  Masanori Kanemaru ,  Shinichiro Kaneko ,  Yasuhiro Suto

IPC分类号： H04N5/14

CPC分类号： G06T5/50 ,  G06T5/003 ,  G06T7/215 ,  G06T2207/20081 ,  G06T2207/20201 ,  H04N5/145 ,  H04N5/21

摘要： A motion-vector-setting section (31) sets a motion vector in units of pixel in a target image. Based on the motion vector, a target-pixel-setting section (35) sets a target pixel for each image in plural images to be processed. A motion-blur-amount-setting section (33) sets a motion blur amount in units of pixel based on the motion vector and the exposure-time ratio set in units of image in the exposure-time-ratio-setting section (32). A processing-region-setting section (36) sets processing regions corresponding to the target pixel for each of the plural images based on the motion blur amount. A processing-coefficient-setting section (37) sets processing coefficients based on the motion blur amount. A pixel-value-generating section (38) generates motion-blur-removed pixel values that correspond to the target pixel by linear combination of pixel values corresponding to pixels in the processing region and the processing coefficients, so that they can be output from an integration section (39) as one pixel value. By utilizing any time-directional information significantly, motion-blur-removing processing can be accurately performed.

摘要翻译： 运动矢量设定部（31）以目标图像中的像素为单位设定运动矢量。 基于运动矢量，目标像素设定部（35）在多个待处理图像中设定各图像的目标像素。 运动模糊量设定部（33）基于在曝光时间比设定部（32）中以图像为单位设定的运动矢量和曝光时间比设定像素单位的运动模糊量， 。 处理区域设置部分（36）基于运动模糊量设置与多个图像中的每一个对应的目标像素的处理区域。 处理系数设定部（37）基于运动模糊量设定处理系数。 像素值生成部（38）通过与处理区域中的像素对应的像素值和处理系数的线性组合，生成与目标像素对应的运动模糊去除像素值，从而可以从 积分部分（39）作为一个像素值。 通过显着地利用任何时间方向信息，可以准确地执行移动模糊去除处理。

公开(公告)号：US20080095400A1

公开(公告)日：2008-04-24

申请号：US11793701

申请日：2005-12-21

申请人： Takahiro Nagano ,  Tetsujiro Kondo ,  Tsutomu Watanabe ,  Junichi Ishibashi ,  Hisakazu Shiraki ,  Naoki Fujiwara ,  Masanori Kanemaru ,  Shinichiro Kaneko ,  Yasuhiro Suto

发明人： Takahiro Nagano ,  Tetsujiro Kondo ,  Tsutomu Watanabe ,  Junichi Ishibashi ,  Hisakazu Shiraki ,  Naoki Fujiwara ,  Masanori Kanemaru ,  Shinichiro Kaneko ,  Yasuhiro Suto

IPC分类号： G06K9/00

CPC分类号： H04N5/23248 ,  H04N5/23254 ,  H04N5/23258 ,  H04N5/23277

摘要： A shooting-information-detecting section (31) detects shooting information from an image pick-up section (10). A motion-detecting section (33) detects a motion direction of an image on an overall screen based on a motion direction of the image pick-up section contained in the shooting information. A processing-region-setting section (36) sets a processing region in at least any one of a predicted target image and a peripheral image thereof, which correspond to a target pixel in the predicted target image. A processing-coefficient-setting section (37) sets a motion-blur-removing-processing coefficient that corresponds to the motion direction detected in the motion-detecting section (33). A pixel-value-generating section (38) generates a pixel value that corresponds to the target pixel based on a pixel value of a pixel in the processing region set in the processing-region-setting section (36) and the processing coefficient set in the processing-coefficient-setting section (37). Motion-blur-removing processing can be accurately performed.

摘要翻译： 拍摄信息检测部（31）从摄像部（10）检测拍摄信息。 运动检测部分（33）根据包含在拍摄信息中的图像拾取部分的运动方向来检测整个屏幕上的图像的运动方向。 处理区域设定部（36）将对应于预测目标图像中的目标像素的预测对象图像和周边图像中的至少任一个设置处理区域。 处理系数设定部（37）设定与运动检测部（33）中检测到的运动方向对应的运动模糊去除处理系数。 像素值生成部（38）基于处理区域设定部（36）中设定的处理区域中的像素的像素值和设定的处理系数，生成与目标像素对应的像素值 处理系数设定部（37）。 可以精确地进行运动模糊去除处理。

公开(公告)号：US20080075362A1

公开(公告)日：2008-03-27

申请号：US11722141

申请日：2005-12-21

申请人： Takahiro Nagano ,  Tetsujiro Kondo ,  Tsutomu Watanabe ,  Junichi Ishibashi ,  Hisakazu Shiraki ,  Naoki Fujiwara ,  Masanori Kanemaru ,  Shinichiro Kaneko ,  Yasuhiro Suto

发明人： Takahiro Nagano ,  Tetsujiro Kondo ,  Tsutomu Watanabe ,  Junichi Ishibashi ,  Hisakazu Shiraki ,  Naoki Fujiwara ,  Masanori Kanemaru ,  Shinichiro Kaneko ,  Yasuhiro Suto

IPC分类号： G06K9/62

CPC分类号： H04N5/21 ,  H04N5/142 ,  H04N5/144

摘要： A motion-setting section (61) sets a motion amount and a motion direction for obtaining processing coefficients. A student-image-generating section (62) generates student images obtained by adding a motion blur to a teacher image not only based on the set motion amount and the set motion direction but also by changing at least one of the motion amount and motion direction in a specific ratio and student images obtained by adding no motion blur to the teacher image. A prediction-tap-extracting section (64) extracts, in order to extract a main term that mainly contains component of the target pixel, at least a pixel value of pixel in the student image whose space position roughly agrees with space position of the target pixel in the teacher image. A processing-coefficient-generating section (65) generates processing coefficients for predicting the target pixels in the teacher images from the pixel values of extracted pixels based on a relationship between the pixels thus extracted and the target pixels in the teacher images. The processing coefficients that are suitable for any motion blur removing which is robust against any shift of the motion vector can be generated through learning.

摘要翻译： 运动设定部（61）设定用于获得处理系数的运动量和运动方向。 学生图像生成部（62）生成不仅基于设定的运动量和设定的运动方向而将运动模糊添加到教师图像而获得的学生图像，而且通过改变运动量和运动方向中的至少一个 以特定比例和学生图像通过添加没有运动模糊获得的教师图像。 预测抽头部（64）为了提取主要包含目标像素的成分的主项，提取学生图像中的空间位置大致与目标的空间位置一致的像素的像素值 像素在老师的形象。 处理系数生成部（65）基于所提取的像素与教师图像中的目标像素之间的关系，从提取的像素的像素值生成用于预测教师图像中的目标像素的处理系数。 可以通过学习来产生适用于对运动矢量的任何移动而鲁棒的任何运动模糊去除的处理系数。

公开(公告)号：US20080008356A1

公开(公告)日：2008-01-10

申请号：US11722450

申请日：2005-12-21

申请人： Takahiro Nagano ,  Tetsujiro Kondo ,  Tsutomu Watanabe ,  Junichi Ishibashi ,  Hisakazu Shiraki ,  Naoki Fujiwara ,  Masanori Kanemaru ,  Shinichiro Kaneko ,  Yasuhiro Suto

发明人： Takahiro Nagano ,  Tetsujiro Kondo ,  Tsutomu Watanabe ,  Junichi Ishibashi ,  Hisakazu Shiraki ,  Naoki Fujiwara ,  Masanori Kanemaru ,  Shinichiro Kaneko ,  Yasuhiro Suto

IPC分类号： G06K9/00

CPC分类号： H04N5/23248 ,  G06T5/003 ,  G06T5/50 ,  G06T7/20 ,  G06T2207/20081 ,  G06T2207/20201 ,  H04N5/144 ,  H04N5/23254 ,  H04N5/23267

摘要： A target-pixel-setting section (31) sets a target pixel in a target image to be predicted. A motion-direction-detecting section (32) detects a motion direction corresponding to the target pixel. A pixel-value-extracting section (36) extracts from peripheral images corresponding to the target image, in order to extract a main term that mainly contains component of the target pixel in a moving object that encounters a motion blur in the peripheral images, at least pixel values of pixels in the peripheral images whose space position roughly agree with space position of the target pixel. A processing-coefficient-setting section (37a) sets a specific motion-blur-removing-processing coefficient. A pixel-value-generating section (38a) newly generates pixel values for processing from the pixel values extracted by the pixel-value-extracting section (36) corresponding to the motion direction and generates pixel values corresponding to the target pixel based on the pixel values for processing and the specific motion-blur-removing-processing coefficients. It is possible to perform a robust motion-blur-removing processing on any shifts of motion vector.

摘要翻译： 目标像素设置部分（31）设置要预测的目标图像中的目标像素。 运动方向检测部（32）检测与目标像素对应的运动方向。 像素值提取部分（36）从与目标图像相对应的外围图像中提取，以便提取主要包含在外围图像中遇到运动模糊的移动物体中的目标像素的分量的主项， 其空间位置与目标像素的空间位置大致一致的周边图像中的像素的最小像素值。 处理系数设定部（37a）设定特定的运动模糊去除处理系数。 像素值生成部（38a）根据与运动方向对应的像素值提取部（36）提取的像素值，新生成用于处理的像素值，并基于该像素值生成部生成与目标像素对应的像素值 用于处理的像素值和具体的运动模糊去除处理系数。 可以对运动矢量的任何移动执行鲁棒的运动模糊去除处理。

公开(公告)号：US20070210561A1

公开(公告)日：2007-09-13

申请号：US11714907

申请日：2007-03-07

申请人： Tsuyoshi Yamagiwa ,  Shouichirou Hidaka ,  Hiroaki Nakao ,  Motoharu Hirata ,  Tsutomu Watanabe ,  Hideharu Saiki ,  Tetsuya Umeki

发明人： Tsuyoshi Yamagiwa ,  Shouichirou Hidaka ,  Hiroaki Nakao ,  Motoharu Hirata ,  Tsutomu Watanabe ,  Hideharu Saiki ,  Tetsuya Umeki

IPC分类号： B60R21/213

CPC分类号： B60R21/213 ,  B60R21/232 ,  B60R2013/0287

摘要： A middle pillar trim PT3 and a rear pillar trim PT4 positioned to the front and rear of a side window glass G3 are each harder than a roof trim RT. A curtain air bag KB fixed to a rear pillar P4 is deployed in a vehicle cabin while a predetermined end edge 26a of the front of the rear pillar trim PT4 in the widthwise direction of a vehicle is deformed toward the front. The separation distance of the curtain air bag KB in a stored state from the side window glass G3 in the widthwise direction of the vehicle is L1 (L2) in the portion of the curtain air bag KB along the rear edge of the side window glass G3, and L4 in the portion of the curtain air bag KB at the upper edge of the side window glass G3 near the middle pillar trim PT3, and L1 (L2)

摘要翻译： 位于侧窗玻璃G 3的前后的中间柱装饰件PT 3和后柱装饰件PT 4分别比车顶装饰件RT硬。 固定在后支柱P 4上的帘式气囊KB被展开在车厢内，而后柱装饰PT4的前方在车辆宽度方向上的预定的端部边缘26a朝向前方变形。 帘式气囊KB在车辆宽度方向上与侧窗玻璃G 3的收纳状态的分离距离在帘式气囊KB的沿着后方的后缘的部分为L 1（L 2） 窗玻璃G 3和L 4位于靠近中间柱装饰PT 3的侧窗玻璃G 3的上边缘处的帘式气囊KB的部分中，并且L 1（L 2）

公开(公告)号：US07130044B2

公开(公告)日：2006-10-31

申请号：US10827685

申请日：2004-04-19

申请人： Masumi Sakai ,  Tsutomu Watanabe ,  Koki Yamamoto

发明人： Masumi Sakai ,  Tsutomu Watanabe ,  Koki Yamamoto

IPC分类号： G01J3/42

CPC分类号： G01J3/443 ,  G01N21/74

摘要： At the time of measurement of a sample, before a sample is introduced into a graphite tube, signal voltages which would be detected by a photomultiplier in connection with all programmable combinations of atomizing temperatures of a graphite tube, widths of entrance and exit slits provided in a spectrometer, and wavelengths into which the light is to be decomposed by the diffraction grating are stored in memory beforehand. At the time of measurement of a sample, an amplification factor of the photomultiplier is controlled by a negative high-voltage controller according to measurement requirements, or measurement is performed after an optimum detector signal voltage is set by controlling the amplification factor of the detector signal output from an amplifier.

摘要翻译： 在样品测量时，在将样品引入石墨管之前，将通过光电倍增管检测到的与石墨管的雾化温度的所有可编程组合相关联的信号电压，其中提供的入口和出口狭缝的宽度 光谱仪和光被衍射光栅分解的波长预先存储在存储器中。 在测量样品时，根据测量要求由负高压控制器控制光电倍增管的放大系数，或者通过控制检测器信号的放大系数来设置最佳检测器信号电压之后进行测量 从放大器输出。

公开(公告)号：US07098168B2

公开(公告)日：2006-08-29

申请号：US10499057

申请日：2002-12-20

申请人： Masayuki Iwasaki ,  Tsutomu Watanabe ,  Hirofumi Mitsuo

发明人： Masayuki Iwasaki ,  Tsutomu Watanabe ,  Hirofumi Mitsuo

IPC分类号： B41M5/30

CPC分类号： B41M5/323 ,  B41M5/3275 ,  B41M5/3336 ,  B41M5/3372 ,  B41M5/3375 ,  B41M5/3377 ,  B41M5/41 ,  C08K5/0008 ,  C08K5/0016 ,  C08K5/11 ,  C09J7/35 ,  C09J11/06 ,  C09J2205/102 ,  C09J2429/00 ,  Y02P20/582

摘要： (B) A thermosensitive recording material comprises a thermosensitive recording layer containing an electron-donating colorless dye, an electron-accepting compound which develops color upon a reaction with the electron-donating colorless dye and a sensitizer, wherein the thermosensitive recording material satisfies at least one of the following conditions (1) to (3). (1) An image density when thermal printing is performed with a printing energy is 1.20 or more, and the thermosensitive recording material is used for a recording device having a printing speed of 10 cm/sec or more. (2) An image density after the thermosensitive recording material is brought into contact with a heat source of 70° C. for 5 seconds is 0.15 or less, and the sensitizer is 2-benzyloxynaphthalene or the like. (3) the electron-accepting compound is a compound represented by R1-Ph-SO2R2 wherein R1 represents a hydroxyl group or an alkyl group, R2 represents -Ph, —NH-Ph, -Ph-OR3 or —NH—CO—NH-Ph, R3 represents an alkyl group, Ph represents a phenyl group and may be substituted with a substituent containing SO2R2, and a volume-averaged grain size is in a range of 0.5 to 1.0 μm.

摘要翻译： （B）热敏记录材料包括含有给电子性无色染料的热敏记录层，与给电子性无色染料反应形成颜色的电子接受性化合物和敏化剂，其中热敏记录材料至少满足 以下条件（1）至（3）之一。 （1）以打印能量进行热敏打印时的图像浓度为1.20以上，热敏记录材料用于印刷速度为10cm /秒以上的记录装置。 （2）热敏记录材料与70℃的热源接触5秒后的图像浓度为0.15以下，敏化剂为2-苄氧基萘等。 （3）电子接受性化合物是由R 1 -O-P 2 -SO 2 R 2 R 2表示的化合物，其中R 1， / SUP>表示羟基或烷基，R 2表示-Ph，-NH-Ph，-Ph-OR 3或-NH-CO-NH- Ph，R 3表示烷基，Ph表示苯基，可以被含有SO 2 R 2 O 2的取代基取代，并且 体积平均粒径在0.5〜1.0μm的范围内。

公开(公告)号：US07068845B2

公开(公告)日：2006-06-27

申请号：US09779139

申请日：2001-02-08

申请人： Tetsujiro Kondo ,  Hideo Nakaya ,  Tsutomu Watanabe ,  Hideki Ohtsuka ,  Yasuaki Takahashi ,  Seiji Wada ,  Takahiro Nagano ,  Koji Ohta ,  Hisakazu Shiraki

发明人： Tetsujiro Kondo ,  Hideo Nakaya ,  Tsutomu Watanabe ,  Hideki Ohtsuka ,  Yasuaki Takahashi ,  Seiji Wada ,  Takahiro Nagano ,  Koji Ohta ,  Hisakazu Shiraki

IPC分类号： G06K3/62

CPC分类号： H04N19/587 ,  H04N19/89 ,  H04N19/895

摘要： A class synthesizing circuit classifies an aimed-at data item into one of a plurality of classes specified in advance, according to a plurality of data items disposed around the aimed-at data item. A coefficient holding and class-code selection circuit stores conversion information for the aimed-at data item, for each class. An estimation-prediction calculation circuit converts the aimed-at data item to a higher-quality data item according to the conversion information. The class synthesizing circuit classifies the aimed-at data item into a different class according to whether the aimed-at data item is missing.

公开(公告)号：US20060126126A1

公开(公告)日：2006-06-15

申请号：US10521331

申请日：2003-07-18

申请人： Tetsujiro Kondo ,  Tsutomu Watanabe ,  Masaaki Hattori

发明人： Tetsujiro Kondo ,  Tsutomu Watanabe ,  Masaaki Hattori

IPC分类号： H04N1/38

CPC分类号： H04N19/117 ,  H04N19/136 ,  H04N19/176 ,  H04N19/60 ,  H04N19/86

摘要： The present invention relates to an apparatus for processing informational signal etc. that are preferably applied to a digital broadcast receiver etc. A class classification portion (130) generates a class code CL for indicating a class to which pixel data y of a target position in an image signal Vb belongs. From an accumulation table (131), based on this class code CL, difference data DF (correction data of encoding noise) that corresponds to the target position is read. Pixel data (pixel value or DCT coefficient) x that corresponds to the target position in the image signal Vb is supplied to an addition portion (134). The addition portion 134 adds the difference data DF read out of the accumulation table (131) to this pixel data x, to obtain pixel data y of the target position in the image signal Vb. Encoding noise (encoding distortion) of this pixel data y is reduced.

摘要翻译： 本发明涉及一种用于处理信息信号等的装置，其优选地应用于数字广播接收机等。类别分类部分（130）生成用于指示目标位置的像素数据y的类的分类代码CL 图像信号Vb属于。 从累积表（131），基于该类代码CL，读取与目标位置对应的差分数据DF（编码噪声的校正数据）。 将与图像信号Vb中的目标位置对应的像素数据（像素值或DCT系数）x提供给加法部（134）。 加法部134将从累积表（131）读出的差数据DF与该像素数据x相加，以获得图像信号Vb中的目标位置的像素数据y。 该像素数据y的编码噪声（编码失真）减小。

公开(公告)号：US07050678B1

公开(公告)日：2006-05-23

申请号：US09786248

申请日：1999-08-27

申请人： Yoshiya Isono ,  Tsutomu Watanabe ,  Makoto Ohsawa ,  Koji Tanaka ,  Takehisa Ide

发明人： Yoshiya Isono ,  Tsutomu Watanabe ,  Makoto Ohsawa ,  Koji Tanaka ,  Takehisa Ide

IPC分类号： G02B6/42

CPC分类号： G02B6/423 ,  G02B6/4201 ,  G02B6/421 ,  G02B6/4243 ,  G02B6/4246 ,  G02B6/4249 ,  G02B6/4253 ,  G02B6/4255 ,  G02B6/4292

摘要： A passive method is provided as alignment means for aligning an optical fiber with an optical element in assembling an optical module, while increasing alignment accuracy. A mount (28a) equipped with an optical element (3a) is positioned by abutment on a face (33c) of a projection (33a) formed inside a package (33) and on a side (33g) of a positioning pad (37) projecting from the bottom (33f) of the package. A mount (28b) equipped with an optical element (3b) is positioned by abutment on an inner wall (33b) of the package and on a face (33i) of a projection (33c) formed inside the package. Since the optical power of received or emitted light need not be monitored for fine adjustments of alignment, this method is less expensive.

摘要翻译： 提供了一种被动方法，作为在组装光学模块时使光纤与光学元件对准的对准装置，同时提高对准精度。 配备有光学元件（3a）的安装座（28a）通过邻接在形成在包装（33）内部的凸起（33a）的表面（33c）上并且位于一侧 定位垫（37）从包装的底部（33f）伸出。 配备有光学元件（3b）的安装座（28b）通过邻接在封装的内壁（33b）上并且形成在封装内部的突起（33c）的表面（33i）上而定位。 由于接收或发射光的光功率不需要被监视以进行对准的微调，所以该方法便宜。