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This is an exercise from CLRS 24.4-12,(not homework, I just try to solve the all the exercise in CLRS)

Give an efficient algorithm to solve a system Ax ≤ b of difference constraints when all of the elements of b are real-valued and a specified subset of some, but not necessarily all, of the unknowns xi must be integers.

If all the xi are integers, we can let b = floor(b) and using Bellman-Ford algorithm finding the shortest path to solve the problem in a constraint graph, but how about some of xi are integers and some not? It is similar to integer programming problem, but integer programming is NP-hard, This question has less constraints, is there an more efficient algorithm?

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What do you think? –  Michael Petrotta Apr 11 '12 at 4:48

3 Answers 3

You have similar things in linear optimization - the only difference is that you have no minimum or maximum requirement. Maybe you can adapt some of the methods. Starting from a real-valued solution, there is the Gomory algorithm adding additional constraints to force the integer xi to become integer, and there are Branch-and-Bound algorithms, trying to exclude big parts of the search space as soon as possible.

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I guess my solution of -12 could be viewed as adding Gomory cutting planes, but I don't think that's an especially productive way to think about it. Branch and bound is not relevant to this problem. –  oldboy Apr 11 '12 at 13:08
If you solve it as a linear programming, as I mentioned , It's NP-hard. I want to know if exists an efficient solution. –  meteorgan Apr 11 '12 at 13:31

First find the element with minimum absolute value in vector b , multiply it by C to make all of the values in vector of b integer (e.g. if the minimum absolute value is 3.102, we can multiply vector b by 1000), then solve it by bellman-ford algorithm , and finally divide it by C !

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Well. Dude, this is an exercise of Introduction to Algorithm. My own way is to adapt Bellman-Ford algorithm, which is to basically construct a directed weighted graph based on the inequalities and then when relaxing the edges, only allow integers to be the key value of the node. I think it's gonna work.

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