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Hello again logical friends! I’m aware this is quite an involved question so please bear with me! I think I’ve managed to get it down to two specifics:- I need two loops which I can’t seem to get working… Firstly; The variable rollers(1).ink is a (12x1) vector containing ink values. This program shares the ink equally between rollers at each connection. I’m attempting to get rollers(1).ink to interact with rollers(2) only at specific timesteps. The ink should transfer into the system once for every full revolution i.e. nTimesSteps = each multiple of nBins_max. The ink should not transfer back to rollers(1).ink as the system rotates – it should only introduce ink to the system once per revolution and not take any back out. Currently I’ve set rollers(1).ink = ones but only for testing. I’m truly stuck here! Secondly; The reason it needs to do this is because at the end of the sim I also wish to remove ink in the form of a printed image. The image should be a reflection of the ink on the last roller in my system and half of this value should be removed from the last roller and taken out of the system at each revolution. The ink remaining on the last roller should be recycled and ‘re-split’ in the system ready for the next rotation. So…I think it’s around the loop beginning line86 where I need to do all this stuff. In pseudo, for the intermittent in-feed I’ve been trying something like:

For k = 1:nTimeSteps
While nTimesSteps = mod(nTimeSteps, nBins_max) == 0 % This should only output when nTimeSteps is a whole multiple of nBins_max i.e. one full revolution
‘Give me the ink on each segment at each time step in a matrix’

The output for averageAmountOfInk is the exact format I would like to return this data except I don’t really need the average, just the actual value at each moment in time. I keep getting errors for dimensional mismatches when I try to re-create this using something like:

For m = 1:nTimeSteps
    For n = 1:N
Rollers(m,n) = rollers(n).ink’;

I’ll post the full code below if anyone is interested to see what it does currently. There’s a function at the end also which of course needs to be saved out to a separate file. I’ve posted variations of this question a couple of times but I’m fully aware it’s quite a tricky one and I’m finding it difficult to get my intent across over the internets! If anyone has any ideas/advice/general insults about my lack of programming skills then feel free to reply!

%% Simple roller train
% # Single forme roller
% # Ink film thickness = 1 micron

clear all
% # Initial state
C = [0,70;   % # Roller centres (x, y)
R = [5.6,4.42,9.8,6.65,10.59,8.4,23];    % # Roller radii (r)
% # Direction of rotation (clockwise = -1, anticlockwise = 1)
rotDir = [1,-1,1,-1,1,-1,1]';
 N = numel(R);           % # Amount of rollers

% # Find connected rollers
isconn = @(m, n)(sum(([1, -1] * C([m, n], :)).^2)...
    -sum(R([m, n])).^2 < eps);
[Y, X] = meshgrid(1:N, 1:N);
conn = reshape(arrayfun(isconn, X(:), Y(:)), N, N) - eye(N);

% # Number of bins for biggest roller
nBins_max = 50;
nBins = round(nBins_max*R/max(R))';

% # Initialize roller struct
rollers = struct('position',{}','ink',{}','connections',{}',...

% # Initialise matrices for roller properties
for ii = 1:N
    rollers(ii).ink = zeros(1,nBins(ii));
    rollers(ii).rotDirection = rotDir(ii);
    rollers(ii).connections = zeros(1,nBins(ii));
    rollers(ii).position = 1:nBins(ii);

for ii = 1:N
    for jj = 1:N
            if(conn(ii,jj) == 1)
               connInd = getConnectionIndex(C,ii,jj,nBins(ii));
               rollers(ii).connections(connInd) = jj;

% # Initialize averageAmountOfInk and calculate initial distribution
nTimeSteps = 1*nBins_max;
averageAmountOfInk = zeros(nTimeSteps,N);
inkPerSeg = zeros(nTimeSteps,N);
for ii = 1:N
    averageAmountOfInk(1,ii) = mean(rollers(ii).ink);

% # Iterate through timesteps
for tt = 1:nTimeSteps
        rollers(1).ink = ones(1,nBins(1));

        % # Rotate all rollers
    for ii = 1:N
                rollers(ii).ink(:) = ...

% # 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;

% # Calculate average amount of ink on each roller
    for ii = 1:N
        averageAmountOfInk(tt,ii) = sum(rollers(ii).ink);

    image(5:20) = (rollers(7).ink(5:20))./2;
    inkPerSeg1 = [rollers(1).ink]';
    inkPerSeg2 = [rollers(2).ink]';
    inkPerSeg3 = [rollers(3).ink]';
    inkPerSeg4 = [rollers(4).ink]';
    inkPerSeg5 = [rollers(5).ink]';
    inkPerSeg6 = [rollers(6).ink]';
    inkPerSeg7 = [rollers(7).ink]';
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1 Answer 1

This is an extended comment rather than a proper answer, but the comment box is a bit too small ...

Your code overwhelms me, I can't see the wood for the trees. I suggest that you eliminate all the stuff we don't need to see to help you with your immediate problem (all those lines drawing figures for example) -- I think it will help you to debug your code yourself to put all that stuff into functions or scripts.

Your code snippet

For k = 1:nTimeSteps
    While nTimesSteps = mod(nTimeSteps, nBins_max) == 0 
    ‘Give me the ink on each segment at each time step in a matrix’

might be (I don't quite understand your use of the while statement, the word While is not a Matlab keyword, and as you have written it the value returned by the statement doesn't change from iteration to iteration) equivalent to

For k = 1:nBins_max:nTimeSteps
    ‘Give me the ink on each segment at each time step in a matrix’

You seem to have missed an essential feature of Matlab's colon operator ...

1:8 = [1 2 3 4 5 6 7 8]


1:2:8 = [1 3 5 7]

that is, the second number in the triplet is the stride between successive elements.

Your matrix conn has a 1 at the (row,col) where rollers are connected, and a 0 elsewhere. You can find the row and column indices of all the 1s like this:

[ri,ci] = find(conn==1)

You could then pick up the (row,col) locations of the 1s without the nest of loops and if statements that begins

for ii = 1:N
    for jj = 1:N
            if(conn(ii,jj) == 1)

I could go on, but won't, that's enough for one comment.

share|improve this answer
Thanks for the suggestions. I am aware of the (:) operator, in fact i have tried to use it in exactly the form you've suggested here without success (possibly in a previous post). I think it would only achieve half of what i'm trying to do, namely-i need some way for the system to ignore this roller if it isn't introducing ink.I appreciate your interest and the suggestions you make, particularly the simplicity of 'find', i'll spend time stream-lining the code once it works. I've edited the question as suggested-hopefully creating a small clearing in the trees!thanks –  richyo1000 Mar 22 '13 at 8:46

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