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I have a weighted graph.I have assigned three keys to each node in the graph.I want a code that, given two unique nodes in the graph, that will display all the paths connecting the two nodes if there exists a common key . The nodes can be connected in multi hop fashion also.

keypool = randint(n,n,[1,10]) %key pool generation
for l = 1:n
for k = 1:3
    nodekey(l,k) = keypool(l,k);%Selects key from key pool
end;
end;
for i=1:n
fprintf('%s %d \t =  %d  %d  %d \n','key_node',i,nodekey(i,:));
end

This is the code i have written to generate random keys to all the nodes. I do not know how to find the path between the two nodes only when there is a common key. Enter the number of nodes:5

keypool =

 5     3     1     7     7
 3     7     8     4     3
 9     3    10     7    10
 2     5     2     7     8
 7    10     7     3     5

key_node 1   =  5  3  1 
key_node 2   =  3  7  8 
key_node 3   =  9  3  10 
key_node 4   =  2  5  2 
key_node 5   =  7  10  7 

the value of n is the number of nodes entered by the user.the above code will generate such random keys for five nodes. if i want to find the path between node1 and node5,assuming possible paths are: 1->2->3->5, 1->5, 1->2->5. the path which has the common key alone should be printed. that is 1->2->3->5, 1->2->5.

wt=zeros(n,n);
while(1)
    i=input('enter the starting node:(0 to quit):');
    if (i==0)    
        break;
    end
    j=input('enter the destination node:');
    wt(i,j)=input('Enter the cost: '); 
end
disp('Adjacency Matrix');
for i=1:n
fprintf('           %d',i);
end
for i=1:n
fprintf('\n%d          ',i);
for j=1:n
    fprintf('%d          ',wt(i,j));
end
end
Adjacency Matrix
       1           2           3           4           5
1          0          1          1          0          0          
2          0          0          0          0          0          
3          1          0          0          1          0          
4          0          0          1          0          0          
5          0          0          0          0          0     

this means node (1,2) (1,3) (3,4) (4,3) are connected.

The user enters connectivity in the graph.the numbers in the keypool are randomly generated. the key assigned to node1 are 5,3,1 and to node5 7,10,7. these two nodes do not have a common key.Hence this path should not be printed. if a common key exists from the source (node1) the route should be traversed to the destination(node 5)

share|improve this question
    
If you want code, you should write some. If you have a more specific question or if you're stuck somewhere, please show what you have done so far. –  Eitan T Mar 3 '13 at 17:30
    
till now i formed a matrix using the weights. and from this matrix i found out the paths between the two nodes in the graph. i do not know how to find the paths only when there is a common key between two nodes. –  Annie Sharon Mar 3 '13 at 17:36
    
That's a good start, you should post it (inside the question) so that those that attempt to answer your question have something to work with. Also, a comprehensive example will be very helpful to understand what you're after. –  Eitan T Mar 3 '13 at 17:41
    
considering 4 nodes. say the topology looks like a square. node1 and node2 are connected. node 2 and node3 are connected. node4 and node 3 are connected. node1 and node4 are connected. the possible paths from node 1 to 3 are: 1->2->3 and 1->4->3. after i assign the keys if a common key exists between the nodes only the path should be printed. –  Annie Sharon Mar 3 '13 at 17:56
    
Again, please edit this into the question. Also, I was thinking about a more specific example, with actual keys, and a step-by-step explanation of what you want the program to do. –  Eitan T Mar 3 '13 at 18:02

1 Answer 1

up vote 1 down vote accepted

You can break the problem down into two steps:

  1. Determine which nodes are connected and share the same key. This information would be stored in a matrix (let's denote it by M), which I will refer to as the modified adjacency matrix.

  2. Find all possible paths from one node to another based on the modified adjacency matrix.

The first part can be solved like so:

%// Obtain matrix 'sh' where each element at position (i, j) indicates if
%// node i and node j share a key
pairs = nchoosek(1:n, 2);                %// All possible pairs of nodes
sh = zeros(n);
for k = 1:size(pairs, 1)
    node1 = pairs(k, 1);
    node2 = pairs(k, 2);
    sh(node1, node2) = any(ismember(nodekey(node1, :), nodekey(node2, :)));
    sh(node2, node1) = sh(node1, node2); %// Matrix must be symmetrical
end

%// Obtain the modified adjacency matrix
M = sh & (wt > 0);

I will leave the second part to you. Finding all possible paths from node A to node B using the given (modified) adjacency matrix M is a well-known problem. Here's a link to one possible implementation of it.

Hope this helps!

P.S:
You can simplify the generation of nodekey by writing:

nodekey = keypool(:, 1:3);

MATLAB's vectorized operations can really help making the code more efficient and elegant!

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1  
Thank You so much. –  Annie Sharon Mar 4 '13 at 17:19

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