Deconvolution of causal pulse and transient data

机译：对因果脉冲和瞬态数据进行反卷积

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The effects of the causality of a certain class of frequency domain filters that satisfy the Paley-Wiener criterion are discussed. Physical pulses and transients are causal functions of time; that is, their values are zero before t=0, the time at which they begin. Their measured waveform data are also causal. When deconvolution processing is applied to remove instrumentation errors and/or suppress the effects of noise, noncausal deconvolution methods may introduce unacceptable errors. The Nahman-Guillaume automatic deconvolution method is modified to ensure that causality is maintained in the deconvolution result. Examples which show the undesirable effects of noncausal methods and a means of eliminating such effects are given.

机译：讨论了满足Paley-Wiener准则的某类频域滤波器因果关系的影响。物理脉冲和瞬变是时间的因果函数;也就是说，它们的值在t = 0（它们开始的时间）之前为零。它们的测量波形数据也是因果关系的。当应用反卷积处理以消除仪器误差和/或抑制噪声的影响时，非因果的反卷积方法可能会引入不可接受的误差。修改了Nahman-Guillaume自动反卷积方法，以确保在反卷积结果中保持因果关系。给出了显示非因果方法的不良影响以及消除此类影响的方法的示例。

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《Instrumentation and Measurement Technology Conference, 1990. IMTC-90. Conference Record., 7th IEEE 》|1990年|p.251-254|共4页
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Bennia A.; Nahman N.S.;
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中图分类无线电电子学、电信技术 ;
关键词
waveforms; causal pulse; transient data; frequency domain filters; Paley-Wiener criterion; waveform data; instrumentation errors; effects of noise; noncausal deconvolution methods; errors; Nahman-Guillaume automatic deconvolution; filtering and predi;

机译：波形;因果脉冲暂态数据频域滤波器Paley-Wiener准则;波形数据仪器错误;噪音的影响;非因果反卷积方法;错误; Nahman-Guillaume自动反卷积;过滤和predi;

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Deconvolution of causal pulse and transient data

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