一种用于有效测量互调失真的脉冲压缩程序

Proceedings of the 10th International Symposium on Image and Signal Processing and Analysis Pub Date : 2017-09-01 DOI:10.1109/ISPA.2017.8073572

P. Burrascano, S. Laureti, M. Ricci, A. Terenzi, S. Cecchi

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引用次数: 1

摘要

对真实世界的音频设备进行建模对于控制其非线性行为和进行质量评估至关重要。特别是非线性失真的测量在音频重放系统中起着重要的作用，因为非线性失真会影响听音体验。在这种情况下，常用的测量方法是总谐波失真、n阶谐波失真和互调失真。由于音频信号的复杂性，互调失真比总谐波失真和n阶谐波失真更有趣，因为它提供了与人类声音感知中谐波组合相关的失真的预测。本文提出了一种基于识别由合适输入信号激励的广义Hammerstein系统核的互调失真预测方法。在模拟和实际场景中都进行了测试，从而证实了所提出方法的有效性。

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A pulse compression procedure for an effective measurement of intermodulation distortion

Modelling real-world audio devices is essential for controlling their nonlinear behaviour and making quality evaluations. In particular, the measurement of nonlinear distortion plays an important role in audio reproduction systems since these nonlinear distortions affect the listening experience. In this context, common interesting measures are the total harmonic distortion, the harmonic distortion of order n and the intermodulation distortion. Due to the complex nature of audio signals, intermodulation distortion is more interesting than total harmonic distortion and harmonic distortion of order n since it provides a prediction of the distortion related to harmonics combination in the human perception of sounds. In this paper, a procedure for intermodulation distortion prediction is presented based on the identification of the kernels of a generalized Hammerstein system excited by a suitable input signal. Tests have been carried out both in simulated and real-world scenarios thus confirming the validity of the proposed approach.

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Proceedings of the 10th International Symposium on Image and Signal Processing and Analysis

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