I'm looking for a way to update certain elements in a vector [nx113] for every full rotation of my system.
%% # Iterate through timesteps for tt = 1:nTimeSteps % # Initialise ink on transfer roller rollers(2).ink = [zeros(1,98),ones(1,5),zeros(1,113)]; % # Rotate all rollers for ii = 1:N rollers(ii).ink(:) = ... circshift(rollers(ii).ink(:),rollers(ii).rotDirection); end % # Update all roller-connections for ii = 1:N for jj = 1:nBins(ii) if(rollers(ii).connections(jj) ~= 0) index1 = rollers(ii).connections(jj); index2 = find(ii == rollers(index1).connections); ink1 = rollers(ii).ink(jj); ink2 = rollers(index1).ink(index2); rollers(ii).ink(jj) = (ink1+ink2)/2; rollers(index1).ink(index2) = (ink1+ink2)/2; end end end % # Calculate average amount of ink on each roller for ii = 1:N averageAmountOfInk(tt,ii) = mean(rollers(ii).ink); end rollers(18).TakeOff = averageAmountOfInk*0.6; end
the vector rollers(2).ink is the vector i'd like to update. currently the vector is populated only once so i have ones from row 98:103. I would like this range of elements to be populated for each 'rotation' of my system not just the first time. The reason - I'm trying to show ink being added intermittently from only a small section of the roller surface, hence the need for only five cells to be populated. i thought that if i iterated from 1 to the number of timesteps, in steps size nBins-Max in the loop:
for tt = 1:nBins_max:nTimeSteps
this doesn't seem to be what i'm after. I'm also hoping to remove ink from the system at the end. for every revolution i would like to be able to remove a percentage of ink on each rotation so it does not stay in the system (as if it was being printed onto a sheet and taken away). Hopefully someone can understand this and perhaps offer some advice on how to proceed on either or both of my issues.