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    • 3. 发明申请
    • ENCODING AND DECODING SPEECH SIGNALS
    • 编码和解码语音信号
    • WO2011070033A1
    • 2011-06-16
    • PCT/EP2010/069103
    • 2010-12-07
    • SKYPE LIMITEDSTROMMER, StefanSORENSEN, KarstenJENSEN, SorenVOS, KoenBERGENHEIM, Jon
    • STROMMER, StefanSORENSEN, KarstenJENSEN, SorenVOS, KoenBERGENHEIM, Jon
    • G10L19/14G10L21/02
    • G10L19/26G10L19/24G10L21/0364
    • A method and apparatus for transmitting an audio signal over a communication channel comprising encoding the audio signal with an encoder 204 using a first sampling rate, filtering the audio signal using a first cut off frequency, the first cut off frequency being chosen in dependence upon the first sampling rate, and transmitting the encoded and filtered audio signal over the communication channel. The presence of a condition in which the sampling rate of the encoder 204 is to be switched to a second sampling rate at a switching time is determined and if the condition has been determined to be present, the cut off frequency used in the filtering step is gradually changed from the first cut off frequency to a second cut off frequency, the second cut off frequency being chosen in dependence upon the second sampling rate, such that the audio bandwidth of the transmitted signal changes gradually when the sampling rate is switched to the second sampling rate.
    • 一种用于通过通信信道发送音频信号的方法和装置,包括使用第一采样率对编码器204对音频信号进行编码,使用第一截止频率对音频信号进行滤波,第一截止频率根据 第一采样率,并且通过通信信道发送编码和滤波的音频信号。 确定在切换时刻将编码器204的采样率切换到第二采样率的条件的存在,如果已经确定存在条件,则在滤波步骤中使用的截止频率为 从第一截止频率逐渐变化到第二截止频率,根据第二采样率选择第二截止频率,使得当采样速率切换到第二截止频率时,发送信号的音频带宽逐渐变化 采样率。
    • 5. 发明申请
    • ACOUSTIC ECHO REDUCTION
    • 消声减速
    • WO2009092709A1
    • 2009-07-30
    • PCT/EP2009/050596
    • 2009-01-20
    • SKYPE LIMITEDSØRENSEN, Karsten VandborgBERGENHEIM, JonVOS, Koen
    • SØRENSEN, Karsten VandborgBERGENHEIM, JonVOS, Koen
    • H04M9/08
    • H04M9/085
    • A method for removing an echo component in a first signal received at an audio input device, said method comprising the steps of outputting a second signal from an audio output device, receiving at the audio input device the first signal wherein the echo component in the first signal is the result of the second signal traversing an echo path having a frequency response which defines the relationship between the echo component and the second signal; determining an echo path model indicating an estimate of the frequency response of the echo path; removing an estimate of the echo component from the first signal using the echo path model; detecting if the first signal is overloaded; and wherein if it is detected that the first signal is overloaded the step of determining an echo path mode! comprises determining an overload echo path model such that the estimate of the frequency response indicated by the overload echo path mode is only allowed to increase over time regardless of whether the frequency response of the echo path is decreasing over time.
    • 一种用于去除在音频输入装置接收的第一信号中的回波分量的方法,所述方法包括以下步骤:从音频输出装置输出第二信号,在音频输入装置处接收第一信号,其中第一信号中的回波分量 信号是第二信号穿过具有定义回波分量和第二信号之间的关系的频率响应的回波路径的结果; 确定指示回波路径的频率响应的估计的回波路径模型; 使用所述回波路径模型从所述第一信号中去除所述回波分量的估计; 检测第一信号是否过载; 并且其中如果检测到所述第一信号过载,则确定回波路径模式的步骤! 包括确定过载回波路径模型,使得由过载回波路径模式指示的频率响应的估计仅被允许随时间增加,而不管回波路径的频率响应是否随时间而减少。
    • 7. 发明申请
    • ECHO CANCELLATION
    • ECHO取消
    • WO2003092184A1
    • 2003-11-06
    • PCT/SE2003/000674
    • 2003-04-25
    • GLOBAL IP SOUND ABHÄNDEL, PeterBERGENHEIM, JonREMLE, Susanne
    • HÄNDEL, PeterBERGENHEIM, JonREMLE, Susanne
    • H04B3/23
    • H04B3/23
    • The present invention relates to a cancellation of echoes in telecommunications systems, more specifically it relates to adaptive alignment of a linear filter (500) used for echo cancellation. According to the invention, it is continuously determined, by means of control logic (520), if a reflection replica delay included in an echo replica signal (110), which delay is provided by a signal buffer (510), should be attempted to be increased or not. Similarly, it is continuously determined if the reflection replica delay should be attempted to be decreased or not. In this way it is possible to provide a delay of the reflection replica which corresponds to the pure delay of a corresponding reflection included in an echo signal (120) received over an echo path. The invention is advantageous since the filter (500) will continuously and quickly adapt to changes in the echo path delay by continuously increasing or decreasing, in an incremental and smooth manner, a present replica delay.
    • 本发明涉及电信系统中回波的消除,更具体地说,涉及用于回波消除的线性滤波器(500)的自适应对准。 根据本发明,通过控制逻辑(520)连续地确定包括在回波复制信号(110)中的反射复制延迟,哪个延迟由信号缓冲器(510)提供,应该被试图 增加或不增加 类似地,连续地确定是否应该尝试减少反射复制延迟。 以这种方式,可以提供对应于包括在通过回波路径接收的回波信号(120)中的对应反射的纯延迟的反射副本的延迟。 本发明是有利的,因为过滤器(500)将通过以增量和平滑的方式连续地增加或减少当前复制延迟来连续且快速地适应回波路径延迟的变化。
    • 9. 发明公开
    • ACOUSTIC ECHO REDUCTION
    • 回音消除
    • EP2241099A1
    • 2010-10-20
    • EP09704380.6
    • 2009-01-20
    • Skype Limited
    • SØRENSEN, Karsten VandborgBERGENHEIM, JonVOS, Koen
    • H04M9/08
    • H04M9/085
    • A method for removing an echo component in a first signal received at an audio input device, said method comprising the steps of outputting a second signal from an audio output device, receiving at the audio input device the first signal wherein the echo component in the first signal is the result of the second signal traversing an echo path having a frequency response which defines the relationship between the echo component and the second signal; determining an echo path model indicating an estimate of the frequency response of the echo path; removing an estimate of the echo component from the first signal using the echo path model; detecting if the first signal is overloaded; and wherein if it is detected that the first signal is overloaded the step of determining an echo path mode! comprises determining an overload echo path model such that the estimate of the frequency response indicated by the overload echo path mode is only allowed to increase over time regardless of whether the frequency response of the echo path is decreasing over time.