| 摘要 |
Methods and apparatus for achieving echo suppression in communications systems include an echo suppressor, referred to herein as an AC-center attenuator, which attenuates the echo component of a communications signal by multiplying a portion of the communications signal by an appropriate scale factor. Specifically, the AC-center attenuator scales that portion of the communications signal lying within a sliding attenuation window. The attenuation window tracks the communications signal so that the AC-center attenuator suppresses the echo component while passing other signal components of interest (e.g., near-end speech and noise). The scale factor within the attenuation window, and the size of the attenuation window itself, are dynamically adjusted so that the AC-center attenuator introduces minimum signal distortion and few audible artifacts. The dynamic adjustment is carried out to provide a desired round-trip echo gain in a system in which the AC-center attenuator is implemented. Toward that end, a measure of the echo attenuation achieved by an echo suppressor (e.g., an adaptive echo canceler) is obtained by computing a ratio of first and second values, wherein the first and second values indicate energy levels in the echo suppressor output and input signals, respectively. Alternately, the echo attenuation achieved by a blockwise-updating echo canceler is obtained by computing a ratio of first and second values, wherein the first value indicates a level of energy in a set of update coefficients of the echo canceler and the second value indicates a level of energy in the echo canceler imput signal. In each case, the computed ratio can be used to adjust the level of attenuation provided by a residual echo suppressor. |
