Permutation classes, sorting algorithms, and lattice paths
A permutation is said to avoid a pattern if it does not contain any subsequence which is order-isomorphic to it. Donald Knuth, in the first volume of his celebrated book "The art of Computer Programming", observed that the permutations that can be computed (or, equivalently, sorted) by som...
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ndltd-unibo.it-oai-amsdottorato.cib.unibo.it-60322014-03-24T16:30:51Z Permutation classes, sorting algorithms, and lattice paths Ferrari, Luca <1985> MAT/02 Algebra A permutation is said to avoid a pattern if it does not contain any subsequence which is order-isomorphic to it. Donald Knuth, in the first volume of his celebrated book "The art of Computer Programming", observed that the permutations that can be computed (or, equivalently, sorted) by some particular data structures can be characterized in terms of pattern avoidance. In more recent years, the topic was reopened several times, while often in terms of sortable permutations rather than computable ones. The idea to sort permutations by using one of Knuth’s devices suggests to look for a deterministic procedure that decides, in linear time, if there exists a sequence of operations which is able to convert a given permutation into the identical one. In this thesis we show that, for the stack and the restricted deques, there exists an unique way to implement such a procedure. Moreover, we use these sorting procedures to create new sorting algorithms, and we prove some unexpected commutation properties between these procedures and the base step of bubblesort. We also show that the permutations that can be sorted by a combination of the base steps of bubblesort and its dual can be expressed, once again, in terms of pattern avoidance. In the final chapter we give an alternative proof of some enumerative results, in particular for the classes of permutations that can be sorted by the two restricted deques. It is well-known that the permutations that can be sorted through a restricted deque are counted by the Schrӧder numbers. In the thesis, we show how the deterministic sorting procedures yield a bijection between sortable permutations and Schrӧder paths. Alma Mater Studiorum - Università di Bologna Barnabei, Marilena 2013-06-19 Doctoral Thesis PeerReviewed application/pdf en http://amsdottorato.unibo.it/6032/ info:eu-repo/semantics/openAccess |
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en |
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Doctoral Thesis |
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MAT/02 Algebra |
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MAT/02 Algebra Ferrari, Luca <1985> Permutation classes, sorting algorithms, and lattice paths |
description |
A permutation is said to avoid a pattern if it does not contain any subsequence which is order-isomorphic to it. Donald Knuth, in the first volume of his celebrated book "The art of Computer Programming", observed that the permutations that can be computed (or, equivalently, sorted) by some particular data structures can be characterized in terms of pattern avoidance. In more recent years, the topic was reopened several times, while often in terms of sortable permutations rather than computable ones.
The idea to sort permutations by using one of Knuth’s devices suggests to look for a deterministic procedure that decides, in linear time, if there exists a sequence of operations which is able to convert a given permutation into the identical one.
In this thesis we show that, for the stack and the restricted deques, there exists an unique way to implement such a procedure. Moreover, we use these sorting procedures to create new sorting algorithms, and we prove some unexpected commutation properties between these procedures and the base step of bubblesort. We also show that the permutations that can be sorted by a combination of the base steps of bubblesort and its dual can be expressed, once again, in terms of pattern avoidance.
In the final chapter we give an alternative proof of some enumerative results, in particular for the classes of permutations that can be sorted by the two restricted deques. It is well-known that the permutations that can be sorted through a restricted deque are counted by the Schrӧder numbers. In the thesis, we show how the deterministic sorting procedures yield a bijection between sortable permutations and Schrӧder paths. |
author2 |
Barnabei, Marilena |
author_facet |
Barnabei, Marilena Ferrari, Luca <1985> |
author |
Ferrari, Luca <1985> |
author_sort |
Ferrari, Luca <1985> |
title |
Permutation classes, sorting algorithms, and lattice paths |
title_short |
Permutation classes, sorting algorithms, and lattice paths |
title_full |
Permutation classes, sorting algorithms, and lattice paths |
title_fullStr |
Permutation classes, sorting algorithms, and lattice paths |
title_full_unstemmed |
Permutation classes, sorting algorithms, and lattice paths |
title_sort |
permutation classes, sorting algorithms, and lattice paths |
publisher |
Alma Mater Studiorum - Università di Bologna |
publishDate |
2013 |
url |
http://amsdottorato.unibo.it/6032/ |
work_keys_str_mv |
AT ferrariluca1985 permutationclassessortingalgorithmsandlatticepaths |
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1716654691226484736 |