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    • 5. 发明授权
    • Quality assessment for images that have extended dynamic ranges or wide color gamuts
    • 具有扩展动态范围或宽色域的图像的质量评估
    • US08743291B2
    • 2014-06-03
    • US14009773
    • 2012-04-12
    • Zhen LiWalter Gish
    • Zhen LiWalter Gish
    • H04N9/64H04N9/67H04N11/20G09G5/02
    • H04N9/64G06T5/009H04N9/67H04N17/02
    • A first video signal is accessed, and represented in a first color space with a first color gamut, related to a first dynamic range. A second video signal is accessed, and represented in a second color space of a second color gamut, related to a second dynamic range. The first accessed video signal is converted to a video signal represented in the second color space. At least two color-related components of the converted video signal are mapped over the second dynamic range. The mapped video signal and the second accessed video signal are processed. Based on the processing, a difference is measured between the processed first and second video signals. A visual quality characteristic relates to a magnitude of the measured difference between the processed first and second video signals. The visual quality characteristic is assessed based, at least in part, on the measurement of the difference.
    • 访问第一视频信号,并且在与第一动态范围有关的具有第一色域的第一颜色空间中表示。 访问第二视频信号,并且在与第二动态范围相关的第二色域的第二颜色空间中表示。 第一访问的视频信号被转换成在第二颜色空间中表示的视频信号。 经转换的视频信号的至少两个颜色相关分量被映射在第二动态范围上。 处理映射的视频信号和第二被访问的视频信号。 基于该处理,在经处理的第一和第二视频信号之间测量差。 视觉质量特性涉及经处理的第一和第二视频信号之间的测量差异的大小。 视觉质量特征至少部分地基于差异的测量来评估。
    • 6. 发明申请
    • Quality Assessment for Images that Have Extended Dynamic Ranges or Wide Color Gamuts
    • 具有扩展动态范围或宽色域的图像的质量评估
    • US20140022460A1
    • 2014-01-23
    • US14009773
    • 2012-04-12
    • Zhen LiWalter Gish
    • Zhen LiWalter Gish
    • H04N9/64H04N17/02
    • H04N9/64G06T5/009H04N9/67H04N17/02
    • A first video signal is accessed, and represented in a first color space with a first color gamut, related to a first dynamic range. A second video signal is accessed, and represented in a second color space of a second color gamut, related to a second dynamic range. The first accessed video signal is converted to a video signal represented in the second color space. At least two color-related components of the converted video signal are mapped over the second dynamic range. The mapped video signal and the second accessed video signal are processed. Based on the processing, a difference is measured between the processed first and second video signals. A visual quality characteristic relates to a magnitude of the measured difference between the processed first and second video signals. The visual quality characteristic is assessed based, at least in part, on the measurement of the difference.
    • 访问第一视频信号,并且在与第一动态范围有关的具有第一色域的第一颜色空间中表示。 访问第二视频信号,并且在与第二动态范围相关的第二色域的第二颜色空间中表示。 第一访问的视频信号被转换成在第二颜色空间中表示的视频信号。 经转换的视频信号的至少两个颜色相关分量被映射在第二动态范围上。 处理映射的视频信号和第二被访问的视频信号。 基于该处理,在经处理的第一和第二视频信号之间测量差。 视觉质量特性涉及经处理的第一和第二视频信号之间的测量差异的大小。 视觉质量特征至少部分地基于差异的测量来评估。
    • 7. 发明授权
    • Device and a method for obtaining a radio controlled clock signal
    • 用于获得无线电控制的时钟信号的装置和方法
    • US09008229B2
    • 2015-04-14
    • US13250589
    • 2011-09-30
    • Zhen Li
    • Zhen Li
    • H03D1/24G04R20/10
    • G04R20/10
    • A device for obtaining a RCC signal and related methods are described herein improves the reliability of the RCC signal reception and demodulation. In one aspect, a device configured to obtain a RCC signal includes: a receiving circuit to receive an analog AM RCC signal and to process said analog AM RCC signal to generate a digital AM RCC signal; and a demodulation circuit in connection with said receiving circuit, to demodulate said digital AM RCC signal to generate the RCC signal. In another aspect, a method for obtaining a RCC signal includes: processing a received analog AM RCC signal to generate a digital AM RCC signal; and demodulating said digital AM RCC signal to generate said RCC signal. Since the digital processing method is more reliable than the analog processing method, the reliability of RCC signal reception and demodulation are improved.
    • 本文描述了用于获得RCC信号的装置和相关方法,提高了RCC信号接收和解调的可靠性。 一方面,一种被配置为获得RCC信号的设备包括:接收电路,用于接收模拟AM RCC信号并处理所述模拟AM RCC信号以产生数字AM RCC信号; 以及与所述接收电路相关的解调电路,以解调所述数字AM RCC信号以产生RCC信号。 另一方面,一种用于获得RCC信号的方法包括:处理接收的模拟AM RCC信号以产生数字AM RCC信号; 以及解调所述数字AM RCC信号以产生所述RCC信号。 由于数字处理方法比模拟处理方法更可靠,因此提高了RCC信号接收和解调的可靠性。
    • 9. 发明授权
    • Adaptive video encoder control
    • 自适应视频编码器控制
    • US08654835B2
    • 2014-02-18
    • US13063768
    • 2009-09-16
    • Zhen LiAlexandros Tourapis
    • Zhen LiAlexandros Tourapis
    • H04N7/12
    • H04N19/19H04N19/103H04N19/105H04N19/147H04N19/172H04N19/176H04N19/177H04N19/196
    • A value of one or more Lagrangian multipliers is adaptively estimate and update based, at least in part, on the video source statistics or dynamic programming. Methods, techniques, and systems involve determining a first Lagrangian multiplier with a video encoder, and updating a second Lagrangian multiplier with the first Lagrangian multiplier. The system can include a Lagrangian multiplier Estimation Module that estimates the Lagrangian multiplier, and a Lagrangian multiplier Update Module that updates the current Lagrangian multiplier using the estimated Lagrangian multiplier. The Online Lagrangian Multiplier Estimation Module may function with Rate Distortion Slope Estimation with Rate Distortion Optimized Mode Decision; Rate Distortion Slope Estimation with Local Approximation; Rate Distortion Slope Estimation with Local Information; or Rate Distortion Slope Estimation with Global Information. The Lagrangian Multiplier Update Module may function with Direct Update; Step Size Update; Sliding Window Update; or Periodical Update.
    • 一个或多个拉格朗日乘数的值至少部分地基于视频源统计或动态规划自适应地估计和更新。 方法,技术和系统涉及用视频编码器确定第一拉格朗日乘数,并用第一拉格朗日乘数更新第二拉格朗日乘数。 该系统可以包括拉格朗日乘数估计模块,其估计拉格朗日乘数,以及拉格朗日乘数更新模块,其使用估计的拉格朗日乘数来更新当前的拉格朗日乘数。 在线拉格朗日乘数估计模块可以利用速率失真优化模式决策的速率失真斜率估计功能; 利用局部逼近估计失真坡度估计; 利用本地信息估价失真坡度估计; 或使用全局信息对失真斜率进行估计。 拉格朗日乘数更新模块可以直接更新; 步长更新; 滑动窗口更新; 或定期更新。
    • 10. 发明授权
    • Video compression under multiple distortion constraints
    • 多重失真约束下的视频压缩
    • US08594178B2
    • 2013-11-26
    • US12999419
    • 2009-06-18
    • Zhen LiAlexandros Tourapis
    • Zhen LiAlexandros Tourapis
    • H04N7/26H04N7/50
    • H04N19/19H04N19/103H04N19/124H04N19/147H04N19/164H04N19/176H04N19/61
    • Video compression is performed under multiple distortion constraints. Video coding includes determining a first set of Lagrangian cost values for multiple coding modes using a first distortion metric, determining a second set of Lagrangian cost values for the multiple coding modes using a second distortion metric, and selecting one of the coding modes based on the first set of Lagrangian cost values and the second set of Lagrangian cost values to encode a pixel block using the selected coding mode. The distortion metrics can include information associated with video display characteristics such as screen display size, video processing performance, a distortion characteristic, a temporal characteristic, or a spatial characteristic. The distortion metrics can also include characteristics of multiple video displays, such as parameters for usage, importance, design, and the technology type of the video displays.
    • 在多个失真约束下进行视频压缩。 视频编码包括使用第一失真度量来确定用于多个编码模式的第一组拉格朗日代价值,使用第二失真度量确定多个编码模式的第二拉格朗日代价集合,并且基于 第一组拉格朗日代价值和第二组拉格朗日代价值,以使用所选择的编码模式对像素块进行编码。 失真度量可以包括与诸如屏幕显示尺寸,视频处理性能,失真特性,时间特性或空间特性的视频显示特征相关联的信息。 失真度量还可以包括多个视频显示器的特征,例如使用参数,重要性,设计和视频显示器的技术类型。