Add to ORKGTwo methods are used to compute the expected value of the length of the minimal spanning tree (MST) of a graph whose edges are assigned lengths which are independent and uniformly distributed. The first method yields an exact formula in terms of the Tutte polynomial. As an illustration, the expected length of the MST of the Petersen graph is found to be 34877/12012 = 2.9035 .... A second, more elementary, method for computing the expected length of the MST is then derived by conditioning on the length of the shortest edge. Both methods in principle apply to any finite graph. To illustrate the method we compute the expected lengths of the MSTs for complete graphs
AbstractThe length of the minimal spanning tree on the complete graph on n vertices with edge weight...
The minimal spanning tree problem is one of the oldest and most basic graph problems in theoretical ...
Let Xi, 1 ≤ i \u3c ∞, denote independent random variables with values in Rd, d ≥ 2, and let Mn denot...
Two methods are used to compute the expected value of the length of the minimal spanning tree (MST) ...
The theory of the minimal spanning tree (MST) of a connected graph whose edges are assigned lengths ...
We extend and strengthen the result hat, in the complete graph K, with independent random edge-lengt...
The theory of the minimal spanning tree (MST) of a connected graph whose edges are assigned lengths ...
We study the expected value of the length Ln of the minimum spanning tree of the complete graph Kn w...
J This paper considers the problem of determining the mean and distri-bution of the length of a mini...
<p>Assume that the edges of the complete graph K<sub>n</sub> are given independent uniform [0,1] edg...
Suppose each edge of the complete graph Kn is assigned a random weight chosen independently and unif...
In Bhatt and Roy's minimal directed spanning tree construction for a random, partially ordered set o...
We present a randomized linear-time algorithm to find a minimum spanning tree in a connected graph w...
Let Xi, 1 ≤ i \u3c ∞, denote independent random variables with values in Rd, d ≥ 2, and let Mn denot...
This paper considers the problem of determining the mean and distribution of the length of a minimal...
AbstractThe length of the minimal spanning tree on the complete graph on n vertices with edge weight...
The minimal spanning tree problem is one of the oldest and most basic graph problems in theoretical ...
Let Xi, 1 ≤ i \u3c ∞, denote independent random variables with values in Rd, d ≥ 2, and let Mn denot...
Two methods are used to compute the expected value of the length of the minimal spanning tree (MST) ...
The theory of the minimal spanning tree (MST) of a connected graph whose edges are assigned lengths ...
We extend and strengthen the result hat, in the complete graph K, with independent random edge-lengt...
The theory of the minimal spanning tree (MST) of a connected graph whose edges are assigned lengths ...
We study the expected value of the length Ln of the minimum spanning tree of the complete graph Kn w...
J This paper considers the problem of determining the mean and distri-bution of the length of a mini...
<p>Assume that the edges of the complete graph K<sub>n</sub> are given independent uniform [0,1] edg...
Suppose each edge of the complete graph Kn is assigned a random weight chosen independently and unif...
In Bhatt and Roy's minimal directed spanning tree construction for a random, partially ordered set o...
We present a randomized linear-time algorithm to find a minimum spanning tree in a connected graph w...
Let Xi, 1 ≤ i \u3c ∞, denote independent random variables with values in Rd, d ≥ 2, and let Mn denot...
This paper considers the problem of determining the mean and distribution of the length of a minimal...
AbstractThe length of the minimal spanning tree on the complete graph on n vertices with edge weight...
The minimal spanning tree problem is one of the oldest and most basic graph problems in theoretical ...
Let Xi, 1 ≤ i \u3c ∞, denote independent random variables with values in Rd, d ≥ 2, and let Mn denot...