The loop part can be cleaned up, but a big part of why the output looks messed up starts here:
output = zeros(length(inputSignal));
This will create a square matrix, not a vector. So then this assignment inside the loop:
output(i) = min(...);
... will populate the first column. Then if you feed the result to plot(), it plots each row as a series.
So just make sure to preallocate a vector.
I'm going to assume that this is closer to what you're looking for.
insignal = [0 0 0 0 0 1 1 1 0 0 0 0 0 1 0 0 0 0 0 0 1 1 1 1 0 0 0 0 0];
se = [1 1 1];
outsignal = erosion(insignal,se);
subplot(2,1,1)
plot(insignal)
subplot(2,1,2)
plot(outsignal)
function [output] = erosion(inputSignal,structuringElement)
% Erosion operation on a 1-D signal
% insputSignal = signal in input
% StructuringElement = structuring element in input
% get sizes
M = length(structuringElement);
N = length(inputSignal);
% this relies on the strel being odd width
if mod(M,2)==0
error('strel length must be odd')
end
% perform dilation
hw = floor(M/2); % half-width of strel
output = zeros(1,N);
for n = ceil(M/2):N-ceil(M/2)+1
output(n) = min(inputSignal(n-hw:n+hw) - structuringElement);
end
end
Bear in mind that the behavior at the ends is due to the way the operation is constrained there. The alternative to avoiding the ends of the signal vector is to add enough padding to them that you can filter the whole vector.
