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I have a solver that solves normal symmetric TSP problems. The solution means the shortest path via all the nodes with no restriction on which nodes are the first and the last ones in the path.

Is there a way to transform the problem so that a specific node can be ensured as the start node, and another node as the end node?

One way would be to add an I - a very large distance - to all distances between these start/end nodes and all the others (adding I twice to the distance between start and end node), so the solver is tempted to visit them only once (thus making them as the start and the end of the path).

Are there any big disadvantages of this approach, or is there a better way to do this?

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Are you saying that you don't want the solution to return to the start (i.e. you want a normal TSP solution less the edge between start and end points)? –  hatchet Jan 25 '13 at 18:19
@nhahtdh Do you mean to change the solver, so it solves other types of problems than it does now? I cannot do it, unfortunately. The solver solves a normal TSP where a node being the first or the last one in the route depends on what the shortest route is. If the first or the last node is specified, the found path wouldn't be the shortest, so that's another type of problem. –  Janis Jan 25 '13 at 18:21
A problem with picking a large distance is that you must ensure it is sufficiently large to force the start and end nodes to be connected in all good solutions. It might be better to give a distance of 0 between start and end. –  hatchet Jan 25 '13 at 18:30
@Janis: Consider a 4 nodes graph with 4 negative edges: S <-> 1 <-> E <-> 2, and another negative edge from 1 <-> 2 that is more than the edge 1 <-> E. Distance 0 between start and end does nothing here. –  nhahtdh Jan 30 '13 at 12:37
@Janis: If you add some value to all edges of original graph, the shortest path stays the same (since all Hamilton path has same number of edges, you can add/minus any amount and the result will not change) –  nhahtdh Jan 30 '13 at 12:42

1 Answer 1

up vote 4 down vote accepted

You can add a dummy node, which connects to start and end node with edges with weight 0. Since the TSP must contain the dummy node, the final result must contain the sequence start - dummy node - end (there is no other way to reach the dummy node). Therefore, you can get the shortest Hamilton path with specified start and end node. This solution should work even if the edges in the graph are negative.

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