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    • 22. 发明申请
    • SURVEILLANCE CAMERA SYSTEM HAVING CAMERA MALFUNCTION DETECTION FUNCTION
    • 具有相机功能检测功能的监视摄像机系统
    • US20120026326A1
    • 2012-02-02
    • US13186533
    • 2011-07-20
    • Masaya ITOHYuan LiTakashi SaekiYasuhiro Suda
    • Masaya ITOHYuan LiTakashi SaekiYasuhiro Suda
    • H04N7/18
    • G06K9/40G06K9/00771H04N7/181
    • A camera surveillance system having a camera malfunction function includes an entire feature extraction unit to extract each entire feature from an input image and a reference image; a block feature extraction unit to extract block features being features of each block from images after the block division of the input image and the reference image divided into blocks by a block division unit; and a malfunction determination unit to calculate a first variation between the entire features of the reference image and the entire features of the input image, and a second variation between the block features of the reference image and the block features of the input image, to determine a camera malfunction by using a threshold, and output information indicating a type of the camera malfunction for each block.
    • 具有相机故障功能的相机监视系统包括:整体特征提取单元,用于从输入图像和参考图像提取每个整个特征; 块特征提取单元,用于通过块分割单元将输入图像的块划分后的图像和被划分成块的参考图像的图像中的每个块的特征提取出的块特征; 以及故障确定单元,用于计算参考图像的整个特征和输入图像的整体特征之间的第一变化,以及参考图像的块特征与输入图像的块特征之间的第二变化,以确定 通过使用阈值进行相机故障,并且输出指示每个块的相机故障类型的信息。
    • 23. 发明申请
    • Method for background generation and its system for video surveillance
    • 背景生成方法及其视频监控系统
    • US20070047811A1
    • 2007-03-01
    • US11514099
    • 2006-09-01
    • Masaya ItohHiromasa Fujii
    • Masaya ItohHiromasa Fujii
    • G06K9/34
    • G06K9/00785G06T7/254G08B13/19602
    • A background generating method of low process cost for use in detecting a moving object based on subtraction process performed between an input image and a base image, and an apparatus with the function of detecting a moving object using its background. The apparatus consists of a feature vector extractor for calculating feature vectors from the input image and an average processor capable of obtaining an average from the calculated feature vectors, diminishing noise occurring for a short time and the influence by the moving object, and forming images that follows the illumination change due to changes in the imaging environment. The images generated by the average processor are accumulated for a predetermined number of frames and the accumulated images are statistically processed by a statistical processor.
    • 基于在输入图像和基本图像之间执行的减法处理来检测移动物体的低过程成本的背景生成方法,以及具有使用其背景检测移动物体的功能的装置。 该装置由用于计算来自输入图像的特征向量的特征向量提取器和能够从计算出的特征向量获得平均值,减少短时间内出现的噪声以及移动对象的影响的平均处理器,并且形成图像 遵循由于成像环境的变化引起的照明变化。 由平均处理器生成的图像被累积预定数量的帧,并且累积图像由统计处理器进行统计处理。
    • 24. 发明授权
    • Grinding head for a grinding machine
    • 研磨机研磨头
    • US4811525A
    • 1989-03-14
    • US159960
    • 1988-02-24
    • Soosaku KimuraMasaya ItohTakeshi Okabe
    • Soosaku KimuraMasaya ItohTakeshi Okabe
    • B24B41/00
    • B24B41/002
    • A supporting member is vertically slidably mounted on a grinding head body which is vertically slidably mounted on a cross rail of a grinding machine. A jaw is provided on the supporting member at an end thereof. A grinding-wheel spindle assembly includes a center shaft one end of which is secured to the grinding head body and the other end is supported between the jaw and an end of the supporting member, and a sleeve rotatably mounted on the center shaft. A grinding wheel is secured to the sleeve. In order to permit replacement of the grinding wheel, the jaw is opened and the supporting member is retracted from an operating position where the center shaft is supported by the jaw to a retracted position apart from the center shaft.
    • 支撑构件可垂直地可滑动地安装在研磨头本体上,该研磨头本体可上下滑动地安装在研磨机的横梁上。 在支撑构件的一端设有颚。 研磨轮主轴组件包括中心轴,其一端固定到研磨头本体,另一端支撑在夹爪与支撑构件的端部之间,以及可旋转地安装在中心轴上的套筒。 砂轮固定在套筒上。 为了允许更换砂轮,钳口被打开,并且支撑构件从中心轴被颚支撑到远离中心轴的缩回位置的操作位置缩回。
    • 25. 发明授权
    • Video monitoring system
    • 视频监控系统
    • US08675065B2
    • 2014-03-18
    • US12540549
    • 2009-08-13
    • Masaya ItohMasanori MiyoshiMasato KazuiHiromasa Fujii
    • Masaya ItohMasanori MiyoshiMasato KazuiHiromasa Fujii
    • H04N13/04G06F15/16
    • G06K9/00771G06T7/194G06T7/254G06T2207/20224G06T2207/30232G08B13/19671
    • A video monitoring system, comprises a camera, and a monitor apparatus, to which video data from the camera is transmitted, wherein the camera comprises a video obtaining unit for obtaining a signal from an image pickup device, a camera image recognizer unit for executing video processing upon an input video obtained from the video obtaining unit, an encoding unit for executing an encoding process upon basis of a result of the processing within the camera image recognizer unit, thereby producing the video data, and wherein the monitor apparatus comprises a decoding unit for decoding the video data, and an image recognizer unit for selecting a decoding means of the decoding unit, upon basis of the result of processing of the camera image recognizer unit.
    • 一种视频监视系统,包括摄像机和监视器设备,来自摄像机的视频数据被发送到摄像机,其中摄像机包括用于从摄像设备获得信号的视频获取单元,用于执行视频的摄像机图像识别器单元 对从视频获取单元获得的输入视频进行处理;编码单元,用于根据相机图像识别器单元中的处理结果执行编码处理,从而产生视频数据,并且其中监视器装置包括解码单元 用于解码视频数据,以及图像识别单元,用于根据摄像机图像识别单元的处理结果选择解码单元的解码装置。
    • 26. 发明授权
    • Image monitoring system
    • 图像监控系统
    • US08200024B2
    • 2012-06-12
    • US13152751
    • 2011-06-03
    • Masaya ItohHiroshi ShojimaHiromasa Fujii
    • Masaya ItohHiroshi ShojimaHiromasa Fujii
    • G06K9/62
    • G06K9/00771G08B13/1961G08B13/19643G08B13/19669G08B29/046
    • An image monitoring system including: an image data acquisition unit for taking in video signals from a camera to acquire image data; and an image recognition unit for carrying out image recognition processing using an inputted image obtained from the image data acquisition unit, wherein the image recognition unit includes: a reference image registration means for registering a reference image selected from among the inputted images; a motion detection means for acquiring motion detection information from the inputted image; an image blur detection means for detecting image blur by comparison of the reference image with the inputted image for edge strength; a similarity computation means for computing a similarity between the reference image and the inputted image; and a camera anomaly detection unit for determining any anomaly in the camera from the motion detection information, the image blur and the similarity, wherein the comparison for edge strength and the computation for the similarity are carried out respectively for an image region excluding a region of a moving object extracted by the motion detection means.
    • 一种图像监视系统,包括:图像数据获取单元,用于摄取来自相机的视频信号以获取图像数据; 以及图像识别单元,用于使用从图像数据获取单元获得的输入图像进行图像识别处理,其中图像识别单元包括:参考图像登记装置,用于登记从输入图像中选择的参考图像; 运动检测装置,用于从所输入的图像获取运动检测信息; 图像模糊检测装置,用于通过参考图像与输入的图像比较边缘强度来检测图像模糊; 相似度计算装置,用于计算参考图像和输入图像之间的相似度; 以及照相机异常检测单元,用于根据运动检测信息,图像模糊和相似性来确定相机中的任何异常,其中针对除了区域的图像区域之外的图像区域分别执行用于边缘强度的比较和相似度的计算 由运动检测装置提取的移动物体。
    • 27. 发明申请
    • VIDEO IMAGE MONITORING SYSTEM
    • 视频图像监控系统
    • US20100253779A1
    • 2010-10-07
    • US12714655
    • 2010-03-01
    • Masaya ITOHMasanori MIYOSHIMasato KAZUIHiromasa FUJIIShun'ichi KANEKOHidenori TAKAUJI
    • Masaya ITOHMasanori MIYOSHIMasato KAZUIHiromasa FUJIIShun'ichi KANEKOHidenori TAKAUJI
    • H04N7/18
    • G08B13/19604G06K9/00771G06K2009/3291G06T7/254G06T2207/10016G06T2207/30196
    • This is a video image monitoring system which can effectively detect a mobile object appearing in a captured video image even if a background image and other camera condition change continuously. The video image monitoring system comprises: a video-image-capturing section 100 for putting out image data based on a video image signal obtained by using a camera 10; a mobile-object-candidate-area-detecting section 101 for extracting a candidate area of a mobile object from the image data; and a mobile-object-detecting section 102 for determining whether the candidate area is the mobile object. The mobile-object-candidate-area-detecting section 101 quantizes a brightness gradient direction of the image data, and calculates a spatio-temporal histogram which represents the frequency of a direction code appearing in a predetermined spatio-temporal space. After that, the mobile-object-candidate-area-detecting section 101 calculates a statistical spatio-temporal space evaluation value of the spatio-temporal histogram. The mobile-object-detecting section 102 uses the spatio-temporal space richness to determine whether the candidate area is the mobile object.
    • 这是即使背景图像和其他照相机条件不断变化,也可以有效地检测出现在拍摄的视频图像中的移动物体的视频图像监视系统。 视频图像监视系统包括:基于通过使用照相机10获得的视频图像信号来输出图像数据的视频图像捕获部分100; 移动对象候选区域检测部分101,用于从图像数据中提取移动对象的候选区域; 以及用于确定候选区域是移动对象的移动对象检测部分102。 移动对象候选区域检测部101对图像数据的亮度梯度方向进行量化,并计算表示在规定的时空空间中出现的方向码的频率的时空直方图。 之后,移动对象候选区域检测部101计算时空直方图的统计时空空间评价值。 移动对象检测部102使用空间 - 时间空间丰富度来确定候选区域是否是移动对象。