The analysis of increasing trees and other families of trees

dc.contributor.authorMorris, Katherine
dc.date.accessioned2006-10-26T12:12:54Z
dc.date.available2006-10-26T12:12:54Z
dc.date.issued2006-10-26T12:12:54Z
dc.description9502325T Faculty of Science School of Mathematicsen
dc.description.abstractAbstract Increasing trees are labelled rooted trees in which labels along any branch from the root appear in increasing order. They have numerous applications in tree representations of permutations, data structures in computer science and probabilistic models in a multitude of problems. We use a generating function approach for the computation of parameters arising from such trees. The generating functions for some parameters are shown to be related to ordinary differential equations. Singularity analysis is then used to analyze several parameters of the trees asymptotically.Various classes of trees are considered. Parameters such as depth and path length for heap ordered trees have been analyzed in [35]. We follow a similar approach to determine grand averages for such trees. The model is that p of the n nodes are labelled at random in 􀀀n p(ways, and the characteristic parameters depend on these labelled nodes. Also, we will attempt to look at the limiting distributions involved. Often, when they are Gaussian, Hwang's quasi power theorem, from [18], can be employed. Spanning tree size and the Wiener index for binary search trees have been computed in [33]. The Wiener index is the sum of all distances between pairs of nodes in a tree. Arelated parameter of interest is the Steiner distance which generalises, to sets of k nodes, the Wiener index (k=2). Furthermore, the distribution of the size of the ancestor-tree and of the induced spanning subtree for random trees is presented in [30]. The same procedure is followed to obtain the Steiner distance for heap ordered trees and for other varieties of increasing trees.en
dc.format.extent848454 bytes
dc.format.mimetypeapplication/pdf
dc.identifier.urihttp://hdl.handle.net/10539/1473
dc.language.isoenen
dc.subjectTreesen
dc.subjectsteiner distanceen
dc.subjectancestor treeen
dc.subjectlimiting distributionen
dc.titleThe analysis of increasing trees and other families of treesen
dc.typeThesisen
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