https://wiki.labrps.com/index.php?action=history&feed=atom&title=Convolution_%26_DeconvolutionConvolution & Deconvolution - Revision history2026-04-07T10:53:31ZRevision history for this page on the wikiMediaWiki 1.38.2https://wiki.labrps.com/index.php?title=Convolution_%26_Deconvolution&diff=168&oldid=prevLabRPS: Created page with "These functions can be accessed by the Convolute/Deconvolute command of the Analysis-tables menu when a table is selected. The convolution of two functions f<sub>1</sub>(x) and f<sub>2</sub>(x) is the function defined by: f<sub>1</sub>(x) is the signal and f<sub>2</sub>(x) is the transfer function. The deconvolution is the inverse of convolution, which is finding the function f<sub>1</sub>(x) which is the solution of the equation f<sub>1</sub>*f<sub>2</sub>=g."2022-08-08T22:53:12Z<p>Created page with "These functions can be accessed by the Convolute/Deconvolute command of the Analysis-tables menu when a table is selected. The convolution of two functions f<sub>1</sub>(x) and f<sub>2</sub>(x) is the function defined by: f<sub>1</sub>(x) is the signal and f<sub>2</sub>(x) is the transfer function. The deconvolution is the inverse of convolution, which is finding the function f<sub>1</sub>(x) which is the solution of the equation f<sub>1</sub>*f<sub>2</sub>=g."</p>
<p><b>New page</b></p><div>These functions can be accessed by the Convolute/Deconvolute command of the Analysis-tables menu when a table is selected. The convolution of two functions f<sub>1</sub>(x) and f<sub>2</sub>(x) is the function defined by:<br />
<br />
f<sub>1</sub>(x) is the signal and f<sub>2</sub>(x) is the transfer function.<br />
<br />
The deconvolution is the inverse of convolution, which is finding the function f<sub>1</sub>(x) which is the solution of the equation f<sub>1</sub>*f<sub>2</sub>=g.</div>LabRPS