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    • 1. 发明申请
    • PICTURE SEARCHING APPARATUS
    • 图片搜索设备
    • US20110142292A1
    • 2011-06-16
    • US13033757
    • 2011-02-24
    • Yasuyuki NakajimaMasaru SuganoHiromasa Yanagihara
    • Yasuyuki NakajimaMasaru SuganoHiromasa Yanagihara
    • G06K9/00
    • H04N5/147
    • The picture input section 12 fetches image data from the storage device 11, and then, inputs image data on sequential n images into the section 13 for measuring correlation between sequential images and the section 14 for measuring correlation between sampled images. The section 13 for measuring correlation between sequential images measures the correlation between sequential images based on video data. The section 14 for measuring correlation between sampled images measures the correlation between sub-sampled images. The short shot determining section 15 determines short cut points by using the correlation between the sequential images and the correlation between the sub-sampled images. Otherwise, short cut points may be determined in consideration of motion amount between the sequential images or the sub-sampled images.
    • 图像输入部分12从存储装置11获取图像数据,然后将顺序n图像上的图像数据输入到用于测量顺序图像之间的相关性的部分13和用于测量采样图像之间的相关性的部分14。 用于测量连续图像之间的相关性的部分13测量基于视频数据的连续图像之间的相关性。 用于测量采样图像之间的相关性的部分14测量子采样图像之间的相关性。 短拍判定部15通过使用顺序图像之间的相关性和子采样图像之间的相关性来确定快捷点。 否则,可以考虑顺序图像或次采样图像之间的运动量来确定快捷点。
    • 3. 发明授权
    • Video encoder
    • 视频编码器
    • US06426772B1
    • 2002-07-30
    • US09167886
    • 1998-10-07
    • Akio YoneyamaYasuyuki NakajimaHiromasa YanagiharaMasaru Sugano
    • Akio YoneyamaYasuyuki NakajimaHiromasa YanagiharaMasaru Sugano
    • H04N718
    • H04N19/85H04N19/126H04N19/132H04N19/137H04N19/149H04N19/15H04N19/152H04N19/154H04N19/172H04N19/176H04N19/192H04N19/196H04N19/197H04N19/587H04N19/61
    • A next input image selector 8 specifies a time at which an input image to be processed next is to be input immediately after finishing an encoding of one image. An input video capture 1 obtains an image of which input time has been specified and sends this image to an input image information detector 2. The input image information detector 2 makes a decision as to whether or not the input image is an image to be processed based on an image variance between this input image and an input image processed immediately before stored in a frame memory 3. If this decision is negative, an input image re-selector 4 re-selects an image to be processed, and if the decision is affirmative, this input image is sent as an image to be processed to a target output bits setter 5 and a motion predictor 11. An output bits controller 6 determines a quantizing level of a quantizer 14 from target output bits and actual output bits obtained from an encoder 15. A video encoder capable of encoding images in uniform picture quality with realtime processing feature can be provided.
    • 下一个输入图像选择器8指定在完成一个图像的编码之后立即输入要处理的输入图像的时间。 输入视频捕获1获得已经指定了哪个输入时间的图像,并将该图像发送到输入图像信息检测器2.输入图像信息检测器2判定输入图像是否是要处理的图像 基于该输入图像与紧接在存储在帧存储器3中之前处理的输入图像之间的图像方差。如果该判定为否定,则输入图像重选器4重新选择要处理的图像,并且如果判定为 肯定地,将该输入图像作为要处理的图像发送到目标输出位置位器5和运动预测器11.输出位控制器6从目标输出位和从输出位获得的实际输出位确定量化器14的量化电平 编码器15.可以提供能够以实时处理特征对具有统一图像质量的图像进行编码的视频编码器。
    • 4. 发明授权
    • Scene classification apparatus of video
    • 视频场景分类装置
    • US08264616B2
    • 2012-09-11
    • US10670245
    • 2003-09-26
    • Masaru SuganoYasuyuki NakajimaHiromasa Yanagihara
    • Masaru SuganoYasuyuki NakajimaHiromasa Yanagihara
    • H04N5/14
    • G11B27/28G06K9/00711
    • The present invention provides a scene classification apparatus for classifying uncompressed or compressed video into various types of scenes at low cost and with high accuracy using characteristics of a video and audio characteristics accompanied by the video. When video are compressed data, their motion intensity, spatial distribution of motion and histogram of motion direction are detected by using values of motion vectors of predictive coding images existing in respective shots, and the respective shots of the video are classified into a dynamic scene, a static scene, a slow scene, a highlight scene, a zooming scene, a panning scene, a commercial scene and the like based on the motion intensity, the spatial distribution of motion, the histogram of motion direction and shot density.
    • 本发明提供了一种场景分类装置,其以低成本和高精度地将未压缩或压缩的视频分类成各种类型的场景,并且伴随视频的视频和音频特征的特性。 当视频是压缩数据时,通过使用存在于各个镜头中的预测编码图像的运动矢量的值来检测其运动强度,运动的空间分布和运动方向的直方图,并且将视频的各个镜头分类为动态场景, 基于运动强度,运动的空间分布,运动方向和射出密度的直方图,静态场景,慢场景,高光场景,缩放场景,平移场景,商业场景等。
    • 5. 发明授权
    • Video playback unit, video delivery unit and recording medium
    • 视频播放单元,视频传送单元和记录介质
    • US07697815B2
    • 2010-04-13
    • US10082268
    • 2002-02-26
    • Yasuyuki NakajimaHiromasa YanagiharaMasaru Sugano
    • Yasuyuki NakajimaHiromasa YanagiharaMasaru Sugano
    • H04N5/91
    • H04N21/845H04N5/9205H04N7/17336H04N21/21H04N21/23H04N21/431H04N21/4316H04N21/4325H04N21/4331H04N21/440281H04N21/47H04N21/472H04N21/8153H04N21/854
    • The present invention relates to the video playback unit of one or a plurality of videos, the delivery unit and the recording medium for recording the program of the processing of these units. The video playback unit of one video reads in order the video data of the video file from the storage unit. The display displays the video data, the time information sequence data and the still image sequence data positioned before and after the playback time of the video data. In this way, the video scene contained in the video file stored in the storage unit and the video file within the server network-connected can be effectively read or the target scene can be effectively retrieved. On the other hand, the playback unit of a plurality of videos divides a plurality of videos read from the storage unit into the main videos and the proxy videos so that these videos can be simultaneously displayed. In this way, a plurality of videos can be played back even in a limited transmission bandwidth and decoding capacity.
    • 本发明涉及一个或多个视频的视频播放单元,用于记录这些单元的处理程序的传送单元和记录介质。 一个视频的视频播放单元从存储单元读取视频文件的视频数据。 显示器显示位于视频数据的播放时间之前和之后的视频数据,时间信息序列数据和静止图像序列数据。 以这种方式,可以有效地读取存储在存储单元中的视频文件中包含的视频场景和网络连接的服务器内的视频文件,或者可以有效地检索目标场景。 另一方面,多个视频的重放单元将从存储单元读取的多个视频分割成主视频和代理视频,从而可以同时显示这些视频。 以这种方式,即使在有限的传输带宽和解码能力中也可以播放多个视频。
    • 6. 发明授权
    • Video coding apparatus according to a feature of a video picture
    • 视频图像的特征的视频编码装置
    • US06973126B1
    • 2005-12-06
    • US09515896
    • 2000-02-29
    • Akio YoneyamaYasuyuki NakajimaHiromasa YanagiharaMasaru Sugano
    • Akio YoneyamaYasuyuki NakajimaHiromasa YanagiharaMasaru Sugano
    • G06T9/00H04B1/66H04N7/12H04N7/26H04N7/46H04N7/50
    • H04N19/59H04N19/112H04N19/114H04N19/115H04N19/137H04N19/139H04N19/172H04N19/177H04N19/61
    • A variance between sequential video pictures is extracted, and then, a GOP boundary position is decided based on inter-frame variance information. Furthermore, simple motion estimation is carried out with respect to video pictures inside one GOP. If a motion variation between the video pictures is large, a small predictive frame interval is taken; to the contrary, if the motion variation is small, a large predictive frame interval is taken. The simple motion estimation is carried out between two downscaled feature planes at a timewise fixed interval with respect to a video picture which is discriminated to be an interlaced video picture, wherein a motion compensatory prediction error at that time is output as image variance information. If the image variance is small, coding is conducted by a frame structure; to the contrary, if the image variance is large, the coding is conducted by a field structure. With the above-described processing, it is possible to provide a video coding apparatus for deciding a GOP size and the predictive frame interval according to the feature of the input video picture, and another video coding apparatus for adaptively switching the coding by the frame/field structures according to the feature of the input video picture.
    • 提取顺序视频图像之间的方差,然后基于帧间方差信息来决定GOP边界位置。 此外,对于一个GOP内的视频图像进行简单的运动估计。 如果视频图像之间的运动变化大,则采用小的预测帧间隔; 相反,如果运动变化小,则采用大的预测帧间隔。 简单的运动估计在相对于被识别为隔行视频图像的视频图像的时间固定间隔的两个缩小特征平面之间进行,其中作为图像方差信息输出此时的运动补偿预测误差。 如果图像方差较小,则通过帧结构进行编码; 相反,如果图像方差较大,则通过场结构进行编码。 利用上述处理,可以根据输入视频图像的特征提供用于确定GOP大小和预测帧间隔的视频编码装置,以及用于通过帧/帧编码自适应地切换编码的另一视频编码装置, 根据输入视频图像的特征的场结构。
    • 8. 发明授权
    • Picture searching apparatus
    • 图像搜索装置
    • US07916793B2
    • 2011-03-29
    • US10641025
    • 2003-08-15
    • Yasuyuki NakajimaMasaru SuganoHiromasa Yanagihara
    • Yasuyuki NakajimaMasaru SuganoHiromasa Yanagihara
    • H04N7/18
    • H04N5/147
    • The picture input section 12 fetches image data from the storage device 11, and then, inputs image data on sequential n images into the section 13 for measuring correlation between sequential images and the section 14 for measuring correlation between sampled images. The section 13 for measuring correlation between sequential images measures the correlation between sequential images based on video data. The section 14 for measuring correlation between sampled images measures the correlation between sub-sampled images. The short shot determining section 15 determines short cut points by using the correlation between the sequential images and the correlation between the sub-sampled images. Otherwise, short cut points may be determined in consideration of motion amount between the sequential images or the sub-sampled images.
    • 图像输入部分12从存储装置11获取图像数据,然后将顺序n图像上的图像数据输入到用于测量顺序图像之间的相关性的部分13和用于测量采样图像之间的相关性的部分14。 用于测量连续图像之间的相关性的部分13测量基于视频数据的连续图像之间的相关性。 用于测量采样图像之间的相关性的部分14测量子采样图像之间的相关性。 短拍判定部15通过使用顺序图像之间的相关性和子采样图像之间的相关性来确定快捷点。 否则,可以考虑顺序图像或次采样图像之间的运动量来确定快捷点。
    • 10. 发明授权
    • Scene change detector
    • 场景变化检测器
    • US06473459B1
    • 2002-10-29
    • US09255965
    • 1999-02-23
    • Masaru SuganoYasuyuki NakajimaHiromasa YanagiharaAkio Yoneyama
    • Masaru SuganoYasuyuki NakajimaHiromasa YanagiharaAkio Yoneyama
    • H04B166
    • H04N19/87H04N19/142H04N19/179H04N19/46H04N19/503H04N19/85
    • A coding parameter extracting unit extracts predictive-coded mode information, motion vectors, and coded transformed coefficients from video-signal-demultiplexed information. An abrupt scene change judging unit uses a characteristic that scenes change greatly before and after an abrupt scene change, to classify blocks on the basis of the predictive-coded mode information among the compressed moving picture data, so that an abrupt scene change is detected. A special effect judging unit detects dissolve from motion characteristic values calculated from the values of motion vectors, predictive-coded picture characteristic values derived from coefficients on frequency domains in blocks, and the number of blocks each having a motion vector that is larger than a threshold; and detects wipe by motion characteristic values calculated from the values of motion vectors, and predictive-coded picture characteristic values derived from coefficients on frequency domains in blocks. According to this architecture, scene changes including special effects such as dissolve or wipe can be detected at high speed and high accuracy by a processing which is far less than that of the prior art.
    • 编码参数提取单元从视频信号解复用信息中提取预测编码模式信息,运动矢量和编码变换系数。 突发场景变化判断单元使用在突然场景变化之前和之后剧烈变化的特征,根据压缩的运动图像数据中的预测编码模式信息对块进行分类,从而检测到突然的场景变化。 特殊效果判断单元从运动矢量的值,从块中的频域上的系数导出的预测编码图像特征值和每个具有大于阈值的运动矢量的块的数量来检测从运动特征值的溶解 ; 并且通过从运动矢量的值计算的运动特性值和从块中的频域上的系数导出的预测编码图像特征值来检测擦除。 根据该结构,可以通过远远小于现有技术的处理,以高速和高精度检测包括诸如溶解或擦拭的特殊效果的场景变化。