AbstractWe further refine the bounds on the path length of binary trees of a given size by considering not only their sizes, but also their heights and fringe thicknesses (the difference between the length of their shortest root-to-leaf paths and their heights). We characterize the maximum-path-length binary trees of a given height, size, and fringe thickness, and using this characterization, we give an algorithm to find the maximum-path-length binary trees of a given size and fringe thickness. The proof of the main result is based on two new tree transformations that preserve the height, size, and fringe thickness
AbstractWe prove that the internal path length of an AVL tree of size N is bounded from above by 1.4...
AbstractWe study that over a certain type of trees (e.g., all trees or all binary trees) with a give...
[[abstract]]Given a tree with weight and length on each edge, this paper presents an efficient algor...
AbstractWe show how to compute the maximum path length of binary trees with a given size and a given...
AbstractWe further refine the bounds on the path length of binary trees of a given size by consideri...
We solve the following problem: Characterize the minimum-path-length binary trees with respect to si...
AbstractThis paper characterizes binary trees with n leaves, which have the greatest number of subtr...
AbstractIn this paper we continue the study of the path length of trees with known fringe as initiat...
We introduce and investigate the approximability of the maximum binary tree problem (MBT) in directe...
The weighted path length of optimum binary search trees is bounded above by $\sum \beta_i + 2\sum \...
AbstractWe study the problem of finding a length-constrained maximum-density path in a tree with wei...
A fundamental problem in network science is the normalization of the topological or physical distanc...
This paper studies path lengths in random binary search trees under the random permutation model. It...
Abstract. In this paper we study binary trees with choosable edge lengths, in particular rooted bina...
We consider extended binary trees and study the common right and left depth of leaf $j$, where the l...
AbstractWe prove that the internal path length of an AVL tree of size N is bounded from above by 1.4...
AbstractWe study that over a certain type of trees (e.g., all trees or all binary trees) with a give...
[[abstract]]Given a tree with weight and length on each edge, this paper presents an efficient algor...
AbstractWe show how to compute the maximum path length of binary trees with a given size and a given...
AbstractWe further refine the bounds on the path length of binary trees of a given size by consideri...
We solve the following problem: Characterize the minimum-path-length binary trees with respect to si...
AbstractThis paper characterizes binary trees with n leaves, which have the greatest number of subtr...
AbstractIn this paper we continue the study of the path length of trees with known fringe as initiat...
We introduce and investigate the approximability of the maximum binary tree problem (MBT) in directe...
The weighted path length of optimum binary search trees is bounded above by $\sum \beta_i + 2\sum \...
AbstractWe study the problem of finding a length-constrained maximum-density path in a tree with wei...
A fundamental problem in network science is the normalization of the topological or physical distanc...
This paper studies path lengths in random binary search trees under the random permutation model. It...
Abstract. In this paper we study binary trees with choosable edge lengths, in particular rooted bina...
We consider extended binary trees and study the common right and left depth of leaf $j$, where the l...
AbstractWe prove that the internal path length of an AVL tree of size N is bounded from above by 1.4...
AbstractWe study that over a certain type of trees (e.g., all trees or all binary trees) with a give...
[[abstract]]Given a tree with weight and length on each edge, this paper presents an efficient algor...