I have a simple digital system which has an input x(n) = u(n) - u(n-4).
I am trying to find the output y(n) with the conv() function from the 'signal' package or the convolve() function from the 'stats' package and plot the y(n) versus n for -10 ≤ n ≤ 10.
So far I have the following code:
library(signal) n <- c(-10:10) # Time index x <- c(rep(0, 10), rep(1, 4), rep(0, 7)) # Input Signal h1 <- c(rep(0, 11), 0.5, rep(0, 9)) # Filter 1 h2 <- 0.8^n # Filter 2 h2[0:11] <- 0 # system <- data.frame(n, x, h1, h2) y <- conv(x + conv(x, h1), h2) # Output Signal system <- transform(system, y=y[1:21]) plot(system$n, system$y)
I checked this plot and it is very wrong. I think there is some recycling of the vectors when I do the convolution and the output of the conv() function doesn't seem to line up with the original time index. I just can't seem to figure out how to fix my logic here. I realize the conv(n, m) function returns a vector of length (m+n)-1, is there a good way to easily match this vector to a time index vector?
This would require some knowledge of Digital Signal Processing as well as coding in R, and it would be great if someone had experience in using R for this purpose and could give a few pointers. Thanks in advance.