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The Traveling Salesperson Problem

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Presentation on theme: "The Traveling Salesperson Problem"— Presentation transcript:

1 The Traveling Salesperson Problem
Algorithms and Networks

2 Problem 1 2 3 4 5 Instance: n vertices (cities), distance between every pair of vertices Question: Find shortest (simple) cycle that visits every city 4 4 1 2 1 2 3 3 2 2 5 5 2 2 3 4 3 2 4 2 11 A&N: TSP

3 Assumptions Lengths are non-negative (or positive)
Symmetric: w(u,v) = w(v,u) Not always: painting machine application Triangle inequality: for all x, y, z: w(x,y) + w(y,z) ³ w(x,z) Always valid? A&N: TSP

4 Construction heuristic: Nearest neighbor
Start at some vertex s; v=s; While not all vertices visited Select closest unvisited neighbor w of v Go from v to w; v=w Go from v to s. Can have performance ratio O(log n) A&N: TSP

5 Closest insertion heuristic
Build tour by starting with one vertex, and inserting vertices one by one. Always insert vertex that is closest to a vertex already in tour. A&N: TSP

6 A dynamic programming algorithm

7 Held-Karp algorithm for TSP
O(n22n) algorithm for TSP Uses Dynamic programming Take some starting vertex s For set of vertices R (s Î R), vertex w Î R, let B(R,w) = minimum length of a path, that Starts in s Visits all vertices in R (and no other vertices) Ends in w A&N: TSP

8 TSP: Recursive formulation
B({s},s) = 0 If |S| > 1, then B(S,w) = minv Î S – {x}B(S-{x}, v}) + w(v,x) If we have all B(V,v) then we can solve TSP. Gives requested algorithm using DP-techniques. A&N: TSP

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