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I am working on a program that has somewhat focus on the below:

unit-length closed interval on the real line is an interval [x, 1+x]. For given input set

X={x1,x2,..., Xn}, x1 < x2 <...xn, how can i determine the smallest set of unit-lenght closed intervals that contains all of the given points and how i calculate time complexity.

I dont need code but an algorithm to set up my program correctly will just do fine


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What approaches did you try? What were the problems? – DVK Oct 26 '10 at 4:57
Is this homework? – Dr. belisarius Oct 26 '10 at 5:21
And can the intervals overlap or not? – MSN Oct 26 '10 at 22:14

Your points are sorted in increasing order. We can solve this by greedy approach. Make the first interval start at x1. Then set the second interval start with the first points out of the first interval. So on.

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+1, this can actually be proven to yield an optimal solution. (Proof sketch: The lowest point needs to be covered by some interval. Thus, at least one such interval must be part of the cover, and placing the low end of the interval at the lowest point maximizes the number of other points that same interval can cover. Now remove all points covered by the interval we just added, and consider the minimum set of intervals needed to cover the remaining points.) – Ilmari Karonen Sep 14 '13 at 12:54

Since its an instance of a set-cover problem, a polynomial time algorithm is unlikely to beat a greedy solution by much. So you could try placing unit intervals that cover the most number of yet uncovered points. For the position of the intervals you dont lose by aligning it with some data point in X.

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Its not an general instance of set cover. You can say its a very special instance of set cover. – Hirak Sarkar Sep 29 '14 at 2:27

Greedy: The time complexity is O(n), maximun. Like x1<...

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