Biased randomly trapped random walks and applications to random walks on Galton-Watson trees

In this thesis we study biased randomly trapped random walks. As our main motivation, we apply these results to biased walks on subcritical Galton-Watson trees conditioned to survive. This application was initially considered model in its own right. We prove conditions under which the biased randoml...

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Main Author: Bowditch, Adam
Published: University of Warwick 2017
Subjects:
510
Online Access:https://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.731430
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spelling ndltd-bl.uk-oai-ethos.bl.uk-7314302019-03-05T15:28:20ZBiased randomly trapped random walks and applications to random walks on Galton-Watson treesBowditch, Adam2017In this thesis we study biased randomly trapped random walks. As our main motivation, we apply these results to biased walks on subcritical Galton-Watson trees conditioned to survive. This application was initially considered model in its own right. We prove conditions under which the biased randomly trapped random walk is ballistic, satisfies an annealed invariance principle and a quenched central limit theorem with environment dependent centring. We also study the regime in which the walk is sub-ballistic; in this case we prove convergence to a stable subordinator. Furthermore, we study the fluctuations of the walk in the ballistic but sub-diffusive regime. In this setting we show that the walk can be properly centred and rescaled so that it converges to a stable process. The biased random walk on the subcritical GW-tree conditioned to survive fits suitably into the randomly trapped random walk model; however, due to a lattice effect, we cannot obtain such strong limiting results. We prove conditions under which the walk is ballistic, satisfies an annealed invariance principle and a quenched central limit theorem with environment dependent centring. In these cases the trapping is weak enough that the lattice effect does not have an influence; however, in the sub-ballistic regime it is only possible to obtain converge along specific subsequences. We also study biased random walks on infinite supercritical GW-trees with leaves. In this setting we determine critical upper and lower bounds on the bias such that the walk satisfies a quenched invariance principle.510QA MathematicsUniversity of Warwickhttps://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.731430http://wrap.warwick.ac.uk/97359/Electronic Thesis or Dissertation
collection NDLTD
sources NDLTD
topic 510
QA Mathematics
spellingShingle 510
QA Mathematics
Bowditch, Adam
Biased randomly trapped random walks and applications to random walks on Galton-Watson trees
description In this thesis we study biased randomly trapped random walks. As our main motivation, we apply these results to biased walks on subcritical Galton-Watson trees conditioned to survive. This application was initially considered model in its own right. We prove conditions under which the biased randomly trapped random walk is ballistic, satisfies an annealed invariance principle and a quenched central limit theorem with environment dependent centring. We also study the regime in which the walk is sub-ballistic; in this case we prove convergence to a stable subordinator. Furthermore, we study the fluctuations of the walk in the ballistic but sub-diffusive regime. In this setting we show that the walk can be properly centred and rescaled so that it converges to a stable process. The biased random walk on the subcritical GW-tree conditioned to survive fits suitably into the randomly trapped random walk model; however, due to a lattice effect, we cannot obtain such strong limiting results. We prove conditions under which the walk is ballistic, satisfies an annealed invariance principle and a quenched central limit theorem with environment dependent centring. In these cases the trapping is weak enough that the lattice effect does not have an influence; however, in the sub-ballistic regime it is only possible to obtain converge along specific subsequences. We also study biased random walks on infinite supercritical GW-trees with leaves. In this setting we determine critical upper and lower bounds on the bias such that the walk satisfies a quenched invariance principle.
author Bowditch, Adam
author_facet Bowditch, Adam
author_sort Bowditch, Adam
title Biased randomly trapped random walks and applications to random walks on Galton-Watson trees
title_short Biased randomly trapped random walks and applications to random walks on Galton-Watson trees
title_full Biased randomly trapped random walks and applications to random walks on Galton-Watson trees
title_fullStr Biased randomly trapped random walks and applications to random walks on Galton-Watson trees
title_full_unstemmed Biased randomly trapped random walks and applications to random walks on Galton-Watson trees
title_sort biased randomly trapped random walks and applications to random walks on galton-watson trees
publisher University of Warwick
publishDate 2017
url https://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.731430
work_keys_str_mv AT bowditchadam biasedrandomlytrappedrandomwalksandapplicationstorandomwalksongaltonwatsontrees
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