会员体验
专利管家(专利管理)
工作空间(专利管理)
风险监控(情报监控)
数据分析(专利分析)
侵权分析(诉讼无效)
联系我们
交流群
官方交流:
QQ群: 891211   
微信请扫码    >>>
现在联系顾问~
热词
    • 1. 发明授权
    • Bandwidth management
    • 带宽管理
    • US06774952B1
    • 2004-08-10
    • US09838784
    • 2001-04-19
    • Martin John Ratcliffe
    • Martin John Ratcliffe
    • H04N726
    • G06T3/40G06T9/007
    • The invention relates to a method and apparatus for vertically scaling a video picture comprising receiving and storing lines of a video frame of a video picture, reading lines of the frame into linestores, applying the lines to a vertical filter and providing an output video line as a function of the lines. Reading the lines of the frame into linestores comprises reading M lines of each successive 2nd line of the frame lines into the linestores. Following generation of the output video line, a further X lines are read from the framestore into the linestores to provide a further set of M lines in the linestores. The M lines are applied to the vertical filter to provide a further output video line as a function of the lines.
    • 本发明涉及一种用于垂直缩放视频图像的方法和装置,包括接收和存储视频图像的视频帧的线,将帧的线条读入线条,将线应用到垂直滤波器并提供输出视频线作为 线的功能。 将帧的线条读入线条包括将帧线的每个连续2行的M行读入线形折线。 在产生输出视频线之后,从帧存储器进一步读取X行到线路以在线路中提供另一组M线。 M行被施加到垂直滤波器以提供作为线的函数的另外的输出视频线。
    • 4. 发明授权
    • Object-oriented adaptive prefilter for low bit-rate video systems
    • 用于低比特率视频系统的面向对象的自适应预滤波器
    • US06456328B1
    • 2002-09-24
    • US08827911
    • 1996-12-18
    • Hiroyuki Okada
    • Hiroyuki Okada
    • H04N726
    • H04N19/80H04N19/17H04N19/186H04N19/20
    • An object-oriented filter for filtering video images prior to video encoding is disclosed. The object-oriented filter is configured to include an image parameter extractor, a filter selector, and a filter. The image parameter extractor analyzes the input video sequences to map the location of pixels associated with one or more image parameters. Once the pixels associated with the image parameters are mapped, the filter selector ranks the identified image parameters based on their overall importance to the video sequence, and then selects a filtering factor for adjusting the strength of the filter used to filter the pixels associated with such identified image parameters. Thereafter, the pixels associated with each of the image parameters are filtered using the filter strength selected by the filter selector. An edge detector, skin detector, eyes-nose-mouth (ENM) region detector, and a moving region detector are optionally incorporated in the image parameter extractor when the image parameters identified are edge parameters, skin area parameters, eyes-nose-mouth (ENM) region parameters and moving region parameters, respectively.
    • 公开了一种用于在视频编码之前对视频图像进行滤波的面向对象滤波器。 面向对象的过滤器被配置为包括图像参数提取器,过滤器选择器和过滤器。 图像参数提取器分析输入视频序列以映射与一个或多个图像参数相关联的像素的位置。 一旦与图像参数相关联的像素被映射,则滤波器选择器基于其对视频序列的总体重要性来对所识别的图像参数进行排序,然后选择用于调整用于滤波与其相关联的像素的滤波器的强度的滤波因子 识别图像参数。 此后,使用由滤波器选择器选择的滤波强度来过滤与每个图像参数相关联的像素。 当识别的图像参数是边缘参数,皮肤区域参数,眼睛 - 鼻孔(图像参数提取器)时,边缘检测器,皮肤检测器,眼睛鼻口(ENM)区域检测器和移动区域检测器可选地并入到图像参数提取器中 ENM)区域参数和移动区域参数。
    • 8. 发明授权
    • Image signal and data storage medium implementing a display cycle identifier
    • 实现显示周期标识符的图像信号和数据存储介质
    • US06654545B2
    • 2003-11-25
    • US09824204
    • 2001-04-03
    • Takahiro NishiShinya KadonoChoong Seng Boon
    • Takahiro NishiShinya KadonoChoong Seng Boon
    • H04N726
    • H04N7/52H04N19/46H04N21/234318H04N21/235H04N21/23614H04N21/242H04N21/4307H04N21/4348H04N21/435H04N21/6332H04N21/654
    • A data structure of an image signal includes a reproduction cycle identifier indicating whether the cycle of image display for each frame is variable or not. When the display cycle identifier indicates that the display cycle is fixed, display cycle data is inserted in a header of the coded image data, and data relating to the frame number is inserted in each frame. On the other hand, when the display cycle identifier indicates that the display cycle is variable, display time data is inserted for each frame. Therefore, when decoding and displaying the coded image data having a fixed display cycle, the decoded image data can be displayed by a simple circuit structure, i.e., based on the display cycle data and the frame number data having a relatively small data quantity (bit number), without referring to the display time data having a relatively large data quantity for each frame. Furthermore, this data structure can be applied to a coded image signal having a variable display cycle.
    • 图像信号的数据结构包括指示每帧的图像显示周期是否可变的再现周期标识符。 当显示周期标识符指示显示周期固定时,将显示周期数据插入编码图像数据的标题中,并且在每帧中插入与帧号相关的数据。 另一方面,当显示周期标识符指示显示周期是可变的时,针对每个帧插入显示时间数据。 因此,当解码和显示具有固定显示周期的编码图像数据时,解码图像数据可以通过简单的电路结构显示,即,基于显示周期数据和具有相对较小数据量的位数(bit 数字),而不参考每帧具有相对较大数据量的显示时间数据。 此外,该数据结构可以应用于具有可变显示周期的编码图像信号。
    • 10. 发明授权
    • Data processing apparatus and method
    • 数据处理装置及方法
    • US06512793B1
    • 2003-01-28
    • US09298951
    • 1999-04-26
    • Mitsuru Maeda
    • Mitsuru Maeda
    • H04N726
    • H04N19/70
    • In decoding code data encoded in object units, decoders corresponding to the number of objects are needed. However, it is impossible to always provide a sufficient number of decoder. Accordingly, when code data 8 is decoded, an object combiner 43 refers to the number s of objects included in the code data 8, detected by an object counter 41, and the number d of object decoders, detected by an object decoder counter 42. If s>d holds, the object combiner 43 regulates the number of the objects of the input code data 8 to d.
    • 在解码以对象单位编码的代码数据时,需要与对象数对应的解码器。 然而,不可能总是提供足够数量的解码器。 因此,当代码数据8被解码时,对象组合器43参考由对象计数器41检测到的代码数据8中包括的对象的数量s和由对象解码器计数器42检测到的对象解码器的数量d。 如果s> d成立,则对象组合器43将输入代码数据8的对象的数量调节为d。