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Automatic versionTraveling Salesman problem
(end point coincides with start point)
end point differs from start pointstart point is given and end point is arbitrarystart point and end point are given
Traveling Salesman problem by incremental methodby using Hilbert Curve
by using Approximating polygon of Hilbert Curve
TSP with a lot of time
TSP with a lot of time version 2
TSP with a lot of time version 3; using Delaunay triangulation
TSP with a lot of time version 4; using Delaunay triangulation part 2
TSP with a lot of time version 5; using incremental method and Delaunay triangulation
TSP with a lot of time, a variation; using second order Delaunay triangulation
TSP with a lot of time, a variation 2; using third order Delaunay triangulation
TSP with a lot of time version 8; more effort but not enough
Longestic traveling routeLongeric traveling route
Shortestic traveling routeShorteric traveling route
Traveling route to some points
Perpendicular bisectors for TSPExtended perpendicular bisectors for TSP
Click versionTraveling Salesman problem
(end point coincides with start point)
end point differs from start pointstart point is given and end point is arbitrarystart point and end point are given
TSP with a lot of time
TSP with a lot of time version 2
TSP with a lot of time version 3; using Delaunay
TSP with a lot of time version 4; using Delaunay part 2
TSP with a lot of time version 5; using incremental method and Delaunay triangulation
TSP with a lot of time, a variation; using second order Delaunay triangulation
TSP with a lot of time, a variation 2; using third order Delaunay triangulation
TSP with a lot of time version 8; more effort but not enough
Differences of the Optimal path of Traveling Salesman Problem and Optimal path from Delaunay triangulation







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Traveling salesman problem with a lot of time version 2(Open 31/July/2010 : The 1st Revision Sunday, 01-Aug-2010 14:19:25 JST)

In this page, we can find the shortest route passing through the points you clicked.
Please click black screen. When you click more than 4 points, the screen shows the shortest route to pass through the points. But if the points are a lot (about more than 10), it takes a lot of time to obtain the solution, sorry.

In this version 2, I delete some combinations for quick computation. The condition of combinations are that two line segments cross each other.

tsploopv2.java

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