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    • 1. 发明授权
    • Interactive speech recognition apparatus and method with conditioned voice prompts
    • 交互式语音识别装置和方法,具有条件语音提示
    • US07328159B2
    • 2008-02-05
    • US10050378
    • 2002-01-15
    • Chienchung ChangNarendranath Malayath
    • Chienchung ChangNarendranath Malayath
    • G10L21/00G10L15/20G10L13/00
    • G10L15/22G10L25/78
    • An improved system for an interactive voice recognition system (400) includes a voice prompt generator (401) for generating voice prompt in a first frequency band (501). A speech detector (406) detects presence of speech energy in a second frequency band (502). The first and second frequency bands (501, 502) are essentially conjugate frequency bands. A voice data generator (412) generates voice data based on an output of the voice prompt generator (401) and audible speech of a voice response generator (402). A control signal (422) controls the voice prompt generator (401) based on whether the speech detector (406) detects presence of speech energy in the second frequency band (502). A back end (405) of the interactive voice recognition system (400) is configured to operate on an extracted front end voice feature based on whether the speech detector (406) detects presence of speech energy in the second frequency band (502).
    • 用于交互式语音识别系统(400)的改进的系统包括用于在第一频带(501)中生成语音提示的语音提示生成器(401)。 语音检测器(406)检测第二频带(502)中语音能量的存在。 第一和第二频带(501,502)基本上是共轭频带。 语音数据生成器(412)基于语音提示生成器(401)的输出和语音响应生成器(402)的可听话音生成语音数据。 控制信号(422)基于语音检测器(406)是否检测到第二频带(502)中的语音能量的存在来控制语音提示产生器(401)。 交互式语音识别系统(400)的后端(405)被配置为基于所述语音检测器(406)是否检测到所述第二频带(502)中的语音能量的存在来对所提取的前端语音特征进行操作。
    • 4. 发明授权
    • Two pass rate control techniques for video coding using a min-max approach
    • 两种通过速率控制技术,用于使用最小 - 最大方法进行视频编码
    • US08379721B2
    • 2013-02-19
    • US11303618
    • 2005-12-15
    • Haohong WangNarendranath Malayath
    • Haohong WangNarendranath Malayath
    • H04N11/04
    • H04N19/194H04N19/124H04N19/147H04N19/15H04N19/19H04N19/61
    • This disclosure describes rate control techniques that can improve video coding based on a “two-pass” approach. The first pass codes a video sequence using a first set of quantization parameters (QPs) for the purpose of estimating rate-distortion characteristics of the video sequence based on the statistic of the first pass. A second set of QPs can then be defined for a second coding pass. The estimated rate-distortion characteristics of the first pass are used to select Qps for the second pass in a manner that minimizes quality fluctuation between the frames of the video sequence. Furthermore, selection of the second set of QPs may also substantially maximize quality of the frames at the substantially minimized quality flucuation in order to achieve low average frame distortion with the minimized quality fluctuation.
    • 本公开描述了可以基于双向方法改进视频编码的速率控制技术。 第一次通过使用第一组量化参数(QP)编码视频序列,以便基于第一遍的统计量来估计视频序列的速率失真特性。 然后可以为第二编码通道定义第二组QP。 第一遍的估计速率 - 失真特性用于以最小化视频序列的帧之间的质量波动的方式来选择第二遍的Qps。 此外,第二组QP的选择也可以在基本上最小化的质量流量下基本上最大化帧的质量,以便以最小化的质量波动实现低平均帧失真。
    • 5. 发明授权
    • Electronic video image stabilization
    • 电子视频图像稳定
    • US07840085B2
    • 2010-11-23
    • US11487078
    • 2006-07-14
    • Raghavendra C. NagarajNarendranath Malayath
    • Raghavendra C. NagarajNarendranath Malayath
    • G06K9/40
    • H04N5/23267H04N5/23248H04N5/23254H04N5/23264H04N19/14H04N19/527
    • This disclosure describes electronic video image stabilization techniques for imaging and video devices. The techniques involve determining motion and spatial statistics for individual macroblocks of a frame, and determining a global motion vector for the frame based on the statistics of each of the macroblocks. In one embodiment, a method of performing electronic image stabilization includes performing spatial estimation on each of a plurality of macroblocks within a frame of an image to obtain spatial statistics for each of the macroblocks, performing motion estimation on each of the plurality of macroblocks to obtain motion statistics for each of the macroblocks, integrating the spatial statistics and the motion statistics of each of the macroblocks to determine a global motion vector for the frame, and offsetting the image with respect to a reference window according to the global motion vector.
    • 本公开描述了用于成像和视频设备的电子视频图像稳定技术。 这些技术涉及确定帧的各个宏块的运动和空间统计,以及基于每个宏块的统计来确定该帧的全局运动矢量。 在一个实施例中,执行电子图像稳定的方法包括对图像的帧内的多个宏块中的每一个执行空间估计,以获得每个宏块的空间统计,对多个宏块中的每一个执行运动估计以获得 对每个宏块进行运动统计,对每个宏块的空间统计和运动统计进行积分,以确定该帧的全局运动矢量,以及根据全局运动矢量相对于参考窗口偏移该图像。
    • 7. 发明授权
    • Video coding with fine granularity scalability using cycle-aligned fragments
    • 使用循环对齐片段的细粒度可扩展性的视频编码
    • US08233544B2
    • 2012-07-31
    • US11776679
    • 2007-07-12
    • Yiliang BaoNarendranath MalayathSharath ManjunathYan Ye
    • Yiliang BaoNarendranath MalayathSharath ManjunathYan Ye
    • H04N7/12H04N11/02
    • H04N19/34
    • The disclosure describes FGS video coding techniques that use cycle-aligned fragments (CAFs). The techniques may perform cycle-based coding of FGS video data block coefficients and syntax elements, and encapsulate cycles in fragments for transmission. The fragments may be cycle-aligned such that a start of a payload of each of the fragments substantially coincides with a start of one of the cycles. In this manner, cycles can be readily accessed via individual fragments. Some cycles may be controlled with a vector mode to scan to a predefined position within a block before moving to another block. In this manner, the number of cycles can be reduced, reducing the number of fragments and associated overhead. The CAFs may be entropy coded independently of one another so that each fragment may be readily accessed and decoded without waiting for decoding of other fragments. Independent entropy coding may permit parallel decoding and simultaneous processing of fragments.
    • 本公开描述了使用循环对准片段(CAF)的FGS视频编码技术。 这些技术可以执行FGS视频数据块系数和语法元素的基于循环的编码,并且将循环封装成用于传输的片段。 片段可以是循环对齐的,使得每个片段的有效载荷的开始基本上与循环中的一个的开始重合。 以这种方式,可以容易地通过各个片段访问周期。 可以通过向量模式来控制一些周期,以便在移动到另一个块之前扫描到块内的预定位置。 以这种方式,可以减少周期数,减少片段的数量和相关的开销。 CAF可以彼此独立地进行熵编码,使得每个片段可以容易地被访问和解码,而不等待其他片段的解码。 独立熵编码可以允许并行解码和片段的同时处理。
    • 10. 发明申请
    • Scalable motion estimation for video encoding
    • 视频编码的可扩展运动估计
    • US20070092006A1
    • 2007-04-26
    • US11255433
    • 2005-10-20
    • Narendranath Malayath
    • Narendranath Malayath
    • H04N11/02H04N11/04
    • H04N19/156H04N19/533
    • The disclosure is directed to scalable motion estimation techniques for video encoding. According to the motion estimation techniques, a motion vector search is scaled according to the computing resources available. For example, the extent of the search may be dynamically adjusted according to available computing resources. A more extensive search may be performed when computing resources permit. When computing resources are scarce, the search may be more limited. In this manner, the scalable motion estimation technique balances video quality, computing overhead and power consumption. The scalable motion estimation technique may search a series of concentric regions, starting at a central anchor point and moving outward across several concentric regions. The number of concentric regions searched for a particular video frame or macroblock is adjusted according to computing resources. Upon searching the anchor point, the search proceeds outward to the next concentric region, and continues as permitted by available computing resources.
    • 本公开涉及用于视频编码的可缩放运动估计技术。 根据运动估计技术,根据可用的计算资源对运动矢量搜索进行缩放。 例如,可以根据可用的计算资源来动态地调整搜索的范围。 当计算资源许可时,可以执行更广泛的搜索。 当计算资源稀少时,搜索可能会更受限制。 以这种方式,可扩展运动估计技术平衡视频质量,计算开销和功耗。 可扩展运动估计技术可以搜索一系列同心区域,从中心锚点开始并向外移动跨越多个同心区域。 根据计算资源调整搜索特定视频帧或宏块的同心区域的数量。 搜索锚定点后,搜索向外移动到下一个同心区域,并且如可用的计算资源所允许的那样继续。