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Problems and conjectures

Published online by Cambridge University Press:  05 October 2010

By
Vincent Vatter
Edited by
Steve Linton ,
Nik Ruškuc  and
Vincent Vatter
Steve Linton
Affiliation:
University of St Andrews, Scotland
Nik Ruškuc
Affiliation:
University of St Andrews, Scotland
Vincent Vatter
Affiliation:
Dartmouth College, New Hampshire
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Summary

A very brief introduction to permutation patterns

We say a permutation π contains or involves the permutation σ if deleting some of the entries of π gives a permutation that is order isomorphic to σ, and we write σ ≤ π. For example, 534162 contains 321 (delete the values 4, 6, and 2). A permutation avoids a permutation if it does not contain it.

This notion of containment defines a partial order on the set of all finite permutations, and the downsets of this order are called permutation classes. For a set of permutations B define Av(B) to be the set of permutations that avoid all of the permutations in B. Clearly Av(B) is a permutation class for every set B, and conversely, every permutation class can be expressed in the form Av(B).

For the problems we need one more bit of notation. Given permutations π and σ of lengths m and n, respectively, their direct sum, π ⊕ σ, is the permutation of length m + n in which the first m entries are equal to π and the last n entries are order isomorphic to σ while their skew sum, π ⊖ σ, is the permutation of length m + n in which the first m entries are order isomorphic to π while the last n entries are equal to π.

Type
Chapter
Information
Permutation Patterns , pp. 339 - 345
Publisher: Cambridge University Press
Print publication year: 2010

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References

[1] M. H., Albert, R. E. L., Aldred, M. D., Atkinson, H. P., van Ditmarsch, B. D., Handley, C. C., Handley, and J., Opatrny. Longest subsequences in permutations. Australas. J. Combin., 28:225–238, 2003.Google Scholar
[2] M. H., Albert, M. D., Atkinson, R., Brignall, N., Ruškuc, R., Smith, and J., West. Growth rates for subclasses of Av(321). arXiv:0903.1999 [math.CO].
[3] M. H., Albert, M., Elder, A., Rechnitzer, P., Westcott, and M., Zabrocki. On the Wilf-Stanley limit of 4231-avoiding permutations and a conjecture of Arratia. Adv. in Appl. Math., 36(2):95–105, 2006.Google Scholar
[4] M. H., Albert and S., Linton. Growing at a perfect speed. Combin. Probab. Comput., 18:301–308, 2009.Google Scholar
[5] R., Arratia. On the Stanley-Wilf conjecture for the number of permutations avoiding a given pattern. Electron. J. Combin., 6:Note, N1, 4 pp., 1999.Google Scholar
[6] M. D., Atkinson, M. M., Murphy, and N., Ruškuc. Sorting with two ordered stacks in series. Theoret. Comput. Sci., 289(1):205–223, 2002.Google Scholar
[7] E., Babson and E., Steingrímsson. Generalized permutation patterns and a classification of the Mahonian statistics. Sém. Lothar. Combin., 44:Article B44b, 18 pp., 2000.Google Scholar
[8] E., Babson and J., West. The permutations 123p4 … pm and 321p4 … pm are Wilf-equivalent. Graphs Combin., 16(4):373–380, 2000.Google Scholar
[9] J., Backelin, J., West, and G., Xin. Wilf-equivalence for singleton classes. Adv. in Appl. Math., 38(2):133–148, 2007.Google Scholar
[10] M., Bóna. Exact enumeration of 1342-avoiding permutations: a close link with labeled trees and planar maps. J. Combin. Theory Ser. A, 80(2):257–272, 1997.Google Scholar
[11] M., Bóna. A survey of stack-sorting disciplines. Electron. J. Combin., 9(2):Article 1, 16 pp., 2003.Google Scholar
[12] M., Bóna. The limit of a Stanley-Wilf sequence is not always rational, and layered patterns beat monotone patterns. J. Combin. Theory Ser. A, 110(2):223–235, 2005.Google Scholar
[13] A., Burstein and W., Stromquist. Dumont permutations of the third kind. Extended abstract, FPSAC 2007.
[14] M., Elder and V., Vatter. Problems and conjectures presented at the Third International Conference on Permutation Patterns, University of Florida, March 7–11, 2005. arXiv:0505504 [math.CO].
[15] M. T., Hardarson. Avoidance of partially ordered generalized patterns of the form κ-σ-κ. arXiv:0805.1872v1 [math.CO].
[16] A., Marcus and G., Tardos. Excluded permutation matrices and the Stanley-Wilf conjecture. J. Combin. Theory Ser. A, 107(1):153–160, 2004.Google Scholar
[17] V. R., Pratt. Computing permutations with double-ended queues, parallel stacks and parallel queues. In STOC '73: Proceedings of the fifth annual ACM symposium on Theory of computing, pages 268–277, New York, NY, USA, 1973.Google Scholar
[18] N., Ray and J., West. Posets of matrices and permutations with forbidden subsequences. Ann. Comb., 7(1):55–88, 2003.Google Scholar
[19] A., Regev. Asymptotic values for degrees associated with strips of Young diagrams. Adv. in Math., 41(2):115–136, 1981.Google Scholar
[20] C., Schensted. Longest increasing and decreasing subsequences. Canad. J. Math., 13:179–191, 1961.Google Scholar
[21] Z., Stankova and J., West. A new class of Wilf-equivalent permutations. J. Algebraic Combin., 15(3):271–290, 2002.Google Scholar
[22] Z. E., Stankova. Forbidden subsequences. Discrete Math., 132(1-3):291–316, 1994.Google Scholar
[23] V., Vatter. Permutation classes of every growth rate above 2.48188. Mathematika, 56:182–192, 2010.Google Scholar
[24] J., West. Permutations with forbidden subsequences and stack-sortable permutations. PhD thesis, M.I.T., 1990.
[25] J., West. Sorting twice through a stack. Theoret. Comput. Sci., 117(1-2):303–313, 1993.Google Scholar

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