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公开(公告)号:US20150015766A1
公开(公告)日:2015-01-15
申请号:US14503032
申请日:2014-09-30
Applicant: Hiroyuki SATOH , Noriyuki TERAO , Yoshiaki IRINO , Tomonori TANAKA , Nozomi IMAE , Toru HARADA , Hirokazu TAKENAKA , Hideaki YAMAMOTO , Kensuke MASUDA , Satoshi SAWAGUCHI , Daisuke BESSHO , Makoto SHOHARA , Yoichi ITO , Shusaku TAKASU
Inventor: Hiroyuki SATOH , Noriyuki TERAO , Yoshiaki IRINO , Tomonori TANAKA , Nozomi IMAE , Toru HARADA , Hirokazu TAKENAKA , Hideaki YAMAMOTO , Kensuke MASUDA , Satoshi SAWAGUCHI , Daisuke BESSHO , Makoto SHOHARA , Yoichi ITO , Shusaku TAKASU
CPC classification number: G02B13/06 , G02B9/62 , G02B13/0065 , G02B17/08 , G03B17/17 , G03B37/04 , H04N5/2258 , H04N5/23238
Abstract: An optical system includes a first lens to focus incident light, a first prism including a reflection surface by which light having transmitted through the first lens is reflected, a second lens to focus incident light from a different direction from a direction of the incident light on the first lens, and a second prism including a reflection surface by which light having transmitted through the second lens is reflected, in which the reflection surface of the first prism and the reflection surface of the second prism oppose each other.
Abstract translation: 光学系统包括聚焦入射光的第一透镜,第一棱镜,包括透射透过第一透镜的光被反射的反射面,第二透镜将来自与入射光方向不同的方向的入射光聚焦在第二透镜上 第一透镜和第二棱镜,其包括反射表面,通过该反射表面透射通过第二透镜的光被反射,其中第一棱镜的反射表面和第二棱镜的反射表面彼此相对。
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公开(公告)号:US20140078247A1
公开(公告)日:2014-03-20
申请号:US14024997
申请日:2013-09-12
Applicant: Makoto SHOHARA , Toru Harada , Hirokazu Takenaka , Yoichi Ito , Kensuke Masuda , Hiroyuki Satoh , Yoshiaki Irino , Tomonori Tanaka , Nozomi Imae , Hideaki Yamamoto , Satoshi Sawaguchi , Daisuke Bessho , Shusaku Takasu
Inventor: Makoto SHOHARA , Toru Harada , Hirokazu Takenaka , Yoichi Ito , Kensuke Masuda , Hiroyuki Satoh , Yoshiaki Irino , Tomonori Tanaka , Nozomi Imae , Hideaki Yamamoto , Satoshi Sawaguchi , Daisuke Bessho , Shusaku Takasu
IPC: H04N9/73
CPC classification number: H04N9/735
Abstract: An image adjuster includes an area evaluator to calculate an area evaluation value for each color in each of divided areas of each of images captured by a plurality of imaging units, a brightness adjuster to calculate a brightness adjustment value for overlapping divided areas between photographic areas of the images on the basis of the area evaluation value for each color, and an adjustment value calculator to calculate a balance adjustment value for each of the overlapping divided areas from the area evaluation value for each color on the basis of the brightness adjustment value.
Abstract translation: 图像调整器包括:区域评估器,用于计算由多个成像单元拍摄的每个图像的每个分割区域中的每个颜色的面积评估值;亮度调节器,用于计算亮度调整值,用于在第 基于每个颜色的区域评估值的图像;以及调整值计算器,用于根据亮度调整值从每个颜色的区域评估值中计算每个重叠分割区域的平衡调整值。
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公开(公告)号:US20130050408A1
公开(公告)日:2013-02-28
申请号:US13595490
申请日:2012-08-27
Applicant: Kensuke MASUDA , Noriyuki Terao , Yoshiaki Irino , Tomonori Tanaka , Nozomi Imae , Toru Harada , Hirokazu Takenaka , Hideaki Yamamoto , Satoshi Sawaguchi , Daisuke Bessho , Hiroyuki Satoh , Makoto Shohara
Inventor: Kensuke MASUDA , Noriyuki Terao , Yoshiaki Irino , Tomonori Tanaka , Nozomi Imae , Toru Harada , Hirokazu Takenaka , Hideaki Yamamoto , Satoshi Sawaguchi , Daisuke Bessho , Hiroyuki Satoh , Makoto Shohara
IPC: H04N7/00
CPC classification number: G02B13/06 , G02B17/023 , H04N5/2253 , H04N5/2254 , H04N5/23238
Abstract: An imaging device includes two imaging optical systems each of the imaging optical systems including a wide-angle lens having an angle of view wider than 180 degrees, and an imaging sensor configured to image an image by the wide-angle lens, so as to obtain an image in a solid angle of 4π radian by synthesizing the images by the respective imaging optical systems, wherein the wide-angle lens of each of the imaging optical systems includes, in order from an object side to an image side, a front group having a negative power, a reflection surface and a back group having a positive power, and is configured to bend an optical axis of the front group by the reflection surface at 90 degrees toward the back group.
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公开(公告)号:US20110246098A1
公开(公告)日:2011-10-06
申请号:US13139425
申请日:2009-12-25
Applicant: Koichi Takemura , Fumikazu Shiba , Daisuke Bessho
Inventor: Koichi Takemura , Fumikazu Shiba , Daisuke Bessho
IPC: G01F1/66
CPC classification number: G01F1/667
Abstract: Switching a transmitting and receiving direction of two transducers (2,3) in the forward and the reverse direction, a time differential memory part (17b) storing a propagation time differential every K times a unit measurement process being executed, the propagation time differential being a differential between a propagation time of the ultrasonic wave signal in a forward direction and in a reverse direction, a flow rate calculating part (15) calculating a flow rate of a passing fluid based on a lump sum of propagation times in both the forward and the reverse directions obtained at least every K times of a unit measurement process being executed, an estimating part (18) estimating a change in a momentary flow rate of the fluid based on the time differential obtained every K times of the unit measurement process being executed and storing thereof in a time differential memory part (17b), thus obtaining an accurate flow rate and detecting the change in the momentary flow rate.
Abstract translation: 在正向和反向切换两个换能器(2,3)的发送和接收方向的时间差分存储器部分(17b)每执行一个单位测量过程每K次存储传播时间差,传播时间差为 超声波信号在正向和反向的传播时间之间的差分,流量计算部分(15),基于传播时间的一次总和来计算流过的流体的流量 执行单元测量处理的至少每K次获得的相反方向,基于执行的单位测量处理每K次获得的时间差估计流体的瞬时流量变化的估计部(18) 并将其存储在时间差分存储部分(17b)中,从而获得准确的流量并检测瞬时流量的变化。
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公开(公告)号:US20180213152A1
公开(公告)日:2018-07-26
申请号:US15936170
申请日:2018-03-26
Applicant: Kensuke Masuda , Noriyuki Terao , Yoshiaki Irino , Tomonori Tanaka , Nozomi Imae , Toru Harada , Hirokazu Takenaka , Hideaki Yamamoto , Satoshi Sawaguchi , Daisuke Bessho , Hiroyuki Satoh , Makoto Shohara
Inventor: Kensuke Masuda , Noriyuki Terao , Yoshiaki Irino , Tomonori Tanaka , Nozomi Imae , Toru Harada , Hirokazu Takenaka , Hideaki Yamamoto , Satoshi Sawaguchi , Daisuke Bessho , Hiroyuki Satoh , Makoto Shohara
CPC classification number: H04N5/23238 , G02B5/04 , G02B13/06 , H04N5/2251 , H04N5/2252 , H04N5/2254 , H04N5/23241
Abstract: An imaging system includes an imaging body having an optical system and an imaging element, a power supplier configured to supply power to the imaging element, and a housing configured to hold the imaging body and the power supplier, wherein the optical system includes at least one optical element projecting from the housing, and a distance AP between a gravity center A of a portion including the optical system and a gravity center P of the entire imaging system and a distance BP between a gravity center B of the power supplier and the gravity center P of the entire imaging system satisfy the following condition. AP>BP
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Patent Agency Ranking
公开(公告)号:US20160313541A1
公开(公告)日:2016-10-27
申请号:US15199415
申请日:2016-06-30
Applicant: Hiroyuki SATOH , Noriyuki TERAO , Yoshiaki IRINO , Tomonori TANAKA , Nozomi IMAE , Toru HARADA , Hirokazu TAKENAKA , Hideaki YAMAMOTO , Kensuke MASUDA , Satoshi SAWAGUCHI , Daisuke BESSHO , Makoto SHOHARA , Yoichi ITO , Shusaku TAKASU
Inventor: Hiroyuki SATOH , Noriyuki TERAO , Yoshiaki IRINO , Tomonori TANAKA , Nozomi IMAE , Toru HARADA , Hirokazu TAKENAKA , Hideaki YAMAMOTO , Kensuke MASUDA , Satoshi SAWAGUCHI , Daisuke BESSHO , Makoto SHOHARA , Yoichi ITO , Shusaku TAKASU
CPC classification number: G02B13/06 , G02B9/62 , G02B13/0065 , G02B17/08 , G03B17/17 , G03B37/04 , H04N5/2258 , H04N5/23238
Abstract: An image capture system including two imaging systems of the same structure each having a wide-angle lens, which includes a front group, a reflection surface, and a rear group arranged in order from an object side, has a field angle larger than 180 degrees, and bends an optical axis of the front group toward the rear group by the reflection surface, and an imaging sensor, obtains an image in a solid angle of 4π radian by combining images imaged by the imaging systems. Each of the two wide-angle lenses includes the reflection surface between the front group and the rear group, the reflection surfaces are made to be common to the two imaging systems. This reduces an interval between lenses nearest to the object side in the front groups of the two wide-angle lenses, thereby reducing a distance between maximum field angles of the two wide-angle lenses.
Abstract translation: 具有相同结构的两个成像系统的图像拍摄系统具有大于180度的场角,每个具有广角镜头的成像系统包括从物体侧排列的前组,反射面和后组, 并且通过反射表面使前组的光轴朝向后组弯曲,并且成像传感器通过组合由成像系统成像的图像来获得4π弧度的立体角的图像。 两个广角透镜中的每一个包括前组和后组之间的反射表面,使得反射表面对于两个成像系统是共同的。 这减小了两个广角镜头的前组中最接近物体侧的镜头之间的间隔,从而减小了两个广角镜头的最大视场角之间的距离。
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公开(公告)号:US09185279B2
公开(公告)日:2015-11-10
申请号:US13795453
申请日:2013-03-12
Applicant: Kensuke Masuda , Noriyuki Terao , Yoshiaki Irino , Tomonori Tanaka , Nozomi Imae , Toru Harada , Hirokazu Takenaka , Hideaki Yamamoto , Satoshi Sawaguchi , Daisuke Bessho , Hiroyuki Satoh , Makoto Shohara
Inventor: Kensuke Masuda , Noriyuki Terao , Yoshiaki Irino , Tomonori Tanaka , Nozomi Imae , Toru Harada , Hirokazu Takenaka , Hideaki Yamamoto , Satoshi Sawaguchi , Daisuke Bessho , Hiroyuki Satoh , Makoto Shohara
IPC: H04N5/225
CPC classification number: H04N5/23238 , G02B5/04 , G02B13/06 , H04N5/2251 , H04N5/2252 , H04N5/2254 , H04N5/23241
Abstract: An imaging system includes an imaging body having an optical system and an imaging element, a power supplier configured to supply power to the imaging element, and a housing configured to hold the imaging body and the power supplier, wherein the optical system includes at least one optical element projecting from the housing, and a distance AP between a gravity center A of a portion including the optical system and a gravity center P of the entire imaging system and a distance BP between a gravity center B of the power supplier and the gravity center P of the entire imaging system satisfy the following condition. AP>BP
Abstract translation: 一种成像系统包括具有光学系统和成像元件的成像体,被配置为向成像元件供电的电源以及被构造成保持成像体和电源的壳体,其中所述光学系统包括至少一个 从壳体突出的光学元件以及包括光学系统的部分的重心A与整个成像系统的重心P之间的距离AP以及电源的重心B与重心之间的距离BP 整个成像系统的P满足以下条件。 AP> BP
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公开(公告)号:US09110273B2
公开(公告)日:2015-08-18
申请号:US13595490
申请日:2012-08-27
Applicant: Kensuke Masuda , Noriyuki Terao , Yoshiaki Irino , Tomonori Tanaka , Nozomi Imae , Toru Harada , Hirokazu Takenaka , Hideaki Yamamoto , Satoshi Sawaguchi , Daisuke Bessho , Hiroyuki Satoh , Makoto Shohara
Inventor: Kensuke Masuda , Noriyuki Terao , Yoshiaki Irino , Tomonori Tanaka , Nozomi Imae , Toru Harada , Hirokazu Takenaka , Hideaki Yamamoto , Satoshi Sawaguchi , Daisuke Bessho , Hiroyuki Satoh , Makoto Shohara
CPC classification number: G02B13/06 , G02B17/023 , H04N5/2253 , H04N5/2254 , H04N5/23238
Abstract: An imaging device includes two imaging optical systems each of the imaging optical systems including a wide-angle lens having an angle of view wider than 180 degrees, and an imaging sensor configured to image an image by the wide-angle lens, so as to obtain an image in a solid angle of 4π radian by synthesizing the images by the respective imaging optical systems, wherein the wide-angle lens of each of the imaging optical systems includes, in order from an object side to an image side, a front group having a negative power, a reflection surface and a back group having a positive power, and is configured to bend an optical axis of the front group by the reflection surface at 90 degrees toward the back group.
Abstract translation: 成像装置包括两个成像光学系统,每个成像光学系统包括具有宽度大于180度的视角的广角透镜,以及被配置为通过广角透镜对图像进行成像的成像传感器,以便获得 立体角为4&pgr的图像 通过由各个成像光学系统合成图像,其中每个成像光学系统的广角镜头从物体侧到像侧依次包括具有负光焦度的正面组,反射面和 具有正功率的后组,并且被配置为使得前组的光轴以90度朝向后组弯曲反射表面。
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19.发明授权Image processing apparatus, image processing method, storage medium, and image processing system 有权图像处理装置,图像处理方法,存储介质和图像处理系统公开(公告)号:US08854359B2
公开(公告)日:2014-10-07
申请号:US13605509
申请日:2012-09-06
Applicant: Hirokazu Takenaka , Noriyuki Terao , Toru Harada , Yoshiaki Irino , Tomonori Tanaka , Hideaki Yamamoto , Nozomi Imae , Daisuke Bessho , Satoshi Sawaguchi , Kensuke Masuda , Hiroyuki Satoh
Inventor: Hirokazu Takenaka , Noriyuki Terao , Toru Harada , Yoshiaki Irino , Tomonori Tanaka , Hideaki Yamamoto , Nozomi Imae , Daisuke Bessho , Satoshi Sawaguchi , Kensuke Masuda , Hiroyuki Satoh
CPC classification number: G06T3/0031 , G06T3/0043 , G06T15/205
Abstract: An image processing apparatus projecting 3D image data to 2D planar image data includes: an accumulation unit that accumulates the 3D image data having position coordinates and pixel values; an acquisition unit that acquires a display parameter, including a zoom parameter for changing image size, for the 2D image data to be created; a creation unit that creates the 2D image data from the 3D image data with the display parameter by determining a half view angle of the 3D image data and performing inverse projection transformation on the 2D image data while changing, in accordance with a change in the half view angle caused by the change in image size specified by the zoom parameter, an inverse projection transformation method applied to position coordinates used to create the 2D image data; and a display unit that displays the created 2D image data as a 2D planar image.
Abstract translation: 将3D图像数据投影到2D平面图像数据的图像处理装置包括:累积具有位置坐标和像素值的3D图像数据的累积单元; 获取单元,用于获取要创建的2D图像数据的包括用于改变图像大小的缩放参数的显示参数; 创建单元,其通过根据二维图像的变化确定3D图像数据的半视角并对2D图像数据进行逆投影变换,从具有显示参数的3D图像数据创建2D图像数据, 由缩放参数指定的图像尺寸变化引起的视角,应用于用于创建2D图像数据的位置坐标的反投影变换方法; 以及显示单元,其将所创建的2D图像数据显示为2D平面图像。
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20.发明申请IMAGE PROCESSOR, IMAGE PROCESSING METHOD AND PROGRAM, AND IMAGING SYSTEM 审中-公开图像处理器,图像处理方法和程序,以及成像系统公开(公告)号:US20140071227A1
公开(公告)日:2014-03-13
申请号:US14022987
申请日:2013-09-10
Applicant: Hirokazu TAKENAKA , Noriyuki Terao , Yoshiaki Irino , Tomonori Tanaka , Nozomi Imae , Toru Harada , Hideaki Yamamoto , Kensuke Masuda , Yoichi Ito , Satoshi Sawaguchi , Daisuke Bessho , Hiroyuki Satoh , Makoto Shohara , Shusaku Takasu
Inventor: Hirokazu TAKENAKA , Noriyuki Terao , Yoshiaki Irino , Tomonori Tanaka , Nozomi Imae , Toru Harada , Hideaki Yamamoto , Kensuke Masuda , Yoichi Ito , Satoshi Sawaguchi , Daisuke Bessho , Hiroyuki Satoh , Makoto Shohara , Shusaku Takasu
IPC: H04N5/232
Abstract: An image processor includes a first converter to convert input images into images in a different coordinate system from that of the input images according to first conversion data based on a projection model, a position detector to detect a connecting position of the images converted by the converter, a corrector to correct the first conversion data on the basis of a result of the detection by the position detector, and a data generator to generate second conversion data for image synthesis from the conversion data corrected by the corrector on the basis of coordinate conversion, the second conversion data defining the conversion of the input images.
Abstract translation: 图像处理器包括:第一转换器,用于根据投影模型根据第一转换数据将输入图像转换为不同坐标系的图像与输入图像的图像;检测由转换器转换的图像的连接位置的位置检测器 基于位置检测器的检测结果校正第一转换数据的校正器,以及数据发生器,用于根据坐标转换从校正器校正的变换数据生成用于图像合成的第二转换数据, 第二转换数据定义输入图像的转换。
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