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2. Steiner tree problem - Wikipedia

   en.wikipedia.org/wiki/Steiner_tree_problem

   In combinatorial mathematics, the Steiner tree problem, or minimum Steiner tree problem, named after Jakob Steiner, is an umbrella term for a class of problems in combinatorial optimization. While Steiner tree problems may be formulated in a number of settings, they all require an optimal interconnect for a given set of objects and a predefined ...

3. Rectilinear Steiner tree - Wikipedia

   en.wikipedia.org/wiki/Rectilinear_Steiner_tree

   The single-trunk Steiner tree is a tree that consists of a single horizontal segment and some vertical segments. A minimum single-trunk Steiner tree (MSTST) may be found in O ( n log n ) time. However simply finding all its edges requires linear time .

4. Rectilinear minimum spanning tree - Wikipedia

   en.wikipedia.org/wiki/Rectilinear_minimum...

   Example of rectilinear minimum spanning tree from random points. In graph theory, the rectilinear minimum spanning tree (RMST) of a set of n points in the plane (or more generally, in ) is a minimum spanning tree of that set, where the weight of the edge between each pair of points is the rectilinear distance between those two points.

5. k-minimum spanning tree - Wikipedia

   en.wikipedia.org/wiki/K-minimum_spanning_tree

   Therefore, the k-minimum spanning tree must be formed by combining the optimal Steiner tree with enough of the zero-weight edges of the added trees to make the total tree size large enough. [ 2 ] Even for a graph whose edge weights belong to the set {1, 2, 3 }, testing whether the optimal solution value is less than a given threshold is NP ...

6. Minimum spanning tree - Wikipedia

   en.wikipedia.org/wiki/Minimum_spanning_tree

   Minimum Steiner trees of vertices of regular polygons with N = 3 to 8 sides. The lowest network length L for N > 5 is the circumference less one side. Squares represent Steiner points. The Steiner tree of a subset of the vertices is the minimum tree that spans the given subset. Finding the Steiner tree is NP-Complete. [16]

7. Gilbert–Pollak conjecture - Wikipedia

   en.wikipedia.org/wiki/Gilbert–Pollak_conjecture

   These additional points are called Steiner points and the shortest network that can be constructed using them is called a Steiner minimum tree. The Steiner ratio is the supremum, over all point sets, of the ratio of lengths of the Euclidean minimum spanning tree to the Steiner minimum tree. Because the Steiner minimum tree is shorter, this ...

8. Euclidean minimum spanning tree - Wikipedia

   en.wikipedia.org/.../Euclidean_minimum_spanning_tree

   The Steiner tree problem again seeks a system of line segments connecting all given points, but without requiring the segments to start and end only at given points. In this problem, additional points may be added as segment endpoints, allowing the Steiner tree to be shorter than the minimum spanning tree. [12]

9. Wiener connector - Wikipedia

   en.wikipedia.org/wiki/Wiener_connector

   In combinatorial optimization, the minimum Wiener connector problem is the problem of finding the minimum Wiener connector. It can be thought of as a version of the classic Steiner tree problem (one of Karp's 21 NP-complete problems), where instead of minimizing the size of the tree, the objective is to minimize the distances in the subgraph ...