• Comment: Fails WP:GNG, requires significant coverage in multiple independent secondary sources. Dan arndt (talk) 06:50, 5 January 2023 (UTC)

In mathematics, a causal wavelet is a continuous wavelet used in the real time continuous wavelet transform. The causal mother wavelet is defined as:[1]


where is a Morlet wavelet.

Hence, the Fourier transform of causal mother wavelet[1]

and satifies the Admissibility Criterion , then the causal wavelet transform is reversible. Furthermore, we can observe that reach the maximum value at . Therefore, when the is high, the convolution of causal wavelet is a high pass filter and vice versa. While we usually chose for a Morlet wavelet, hence we have

and the real form .

Moreover, we define the causal wavelet transform as[1]


where is called the daughter wavelet of the causal wavelet.[1]

Simulation

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Simulation on causal signal

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Consider a causal signal  , which there is a value   such that  , for example [1]

 

and we define the causal mother wavelet as  .

Moreover, we define the inner product in  

 , for  .

Then, we can define the Signal-to-noise ratio (SNR) w.r.t. the wavalet   as

 .

We can see that the causal wavelet   is always better than the Morlet wavelet   for the SNR of the causal signal  .

Since  

and   for the same  , so as   for the same  ,

we get  .

References

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  1. ^ a b c d e Szu, Harold H.; Telfer, Brian; Lohmann, Adolf W. (1992). "Causal analytical wavelet transform". Optical Engineering. 31 (9): 1825–1829. Bibcode:1992OptEn..31.1825S. doi:10.1117/12.59911.