Lowercase t-like symbol is a greek letter "tau". Here it represents an integration (dummy) variable, which "runs" from lower integration limit, "0", to upper integration limit, "t". So, the convolution …

Dec 14, 2024 · 0 We started recently talking in my signal processing class about the convolution integral, and in theory, it sounds easy enough but now after a few exercises I realize I either …

Dec 23, 2014 · Convolution is defined as an integral over the whole space. The second "type" of convolution sometimes appear in the theory of differential equations. For instance, it appears …

Jan 5, 2020 · I am learning how to calculate convolution of basic signals, such as rectangular ones. Specifically, the definition of such a signal is: $$ \operatorname {rect}_T (t)= \begin …

Dec 23, 2014 · calculus integration functional-analysis convergence-divergence convolution See similar questions with these tags.

Jan 17, 2015 · $ (f*g) (x)$ is called convolution and is the integral of $f (x-y)g (y)$ with respect to $y$ on $\mathbb {R}^n$. But why the integral of $f*g$ is equal to product of integral of $f$ and …

Convolution theorem: proof via integral of Fourier transforms Ask Question Asked 1 year, 8 months ago Modified 1 year, 8 months ago

Aug 22, 2024 · Background Both the integral of the product of functions and the more general convolution are called 'overlap' (Wikipedia). Also MathSE article tells so. In a convolution, the …

In the final step, I shifted both bounds on the integral by $-x$, which does not change the value because we are integrating over an interval of length $2\pi$ and the function is $2\pi$-periodic.

I am having trouble evaluating the convolution of two signals using the convolution integral.I want to find the convolution of two signals x and h where, $$ x(t) = \\begin{cases} e^{-a...