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Baxter permutation

From Wikipedia, the free encyclopedia

In combinatorial mathematics, a Baxter permutation is a permutation which satisfies the following generalized pattern avoidance property:

  • There are no indices such that or .

Equivalently, using the notation for vincular patterns, a Baxter permutation is one that avoids the two dashed patterns and .

For example, the permutation in (written in one-line notation) is not a Baxter permutation because, taking , and , this permutation violates the first condition.

These permutations were introduced by Glen E. Baxter in the context of mathematical analysis.[1]

Enumeration

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For , the number of Baxter permutations of length is

1, 2, 6, 22, 92, 422, 2074, 10754, 58202, 326240, 1882960, 11140560, 67329992, 414499438, 2593341586, 16458756586,...

This is sequence OEISA001181 in the OEIS. In general, has the following formula:

[2]

In fact, this formula is graded by the number of descents in the permutations, i.e., there are Baxter permutations in with descents. [3]

Other properties

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  • The number of alternating Baxter permutations of length is , the square of a Catalan number, and of length is

.

  • The number of doubly alternating Baxter permutations of length and (i.e., those for which both and its inverse are alternating) is the Catalan number .[4]
  • Baxter permutations are related to Hopf algebras,[5] planar graphs,[6] and tilings.[7][8]

Motivation: commuting functions

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Baxter introduced Baxter permutations while studying the fixed points of commuting continuous functions. In particular, if and are continuous functions from the interval to itself such that for all , and for finitely many in , then:

  • the number of these fixed points is odd;
  • if the fixed points are then and act as mutually-inverse permutations on

and ;

  • the permutation induced by on uniquely determines the permutation induced by

on ;

  • under the natural relabeling , , etc., the permutation induced on is a Baxter permutation.

See also

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References

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  1. ^ Baxter, Glen (1964), "On fixed points of the composite of commuting functions", Proceedings of the American Mathematical Society, 15 (6): 851–855, doi:10.2307/2034894, JSTOR 2034894.
  2. ^ Chung, F. R. K.; Graham, R. L.; Hoggatt, V. E. Jr.; Kleiman, M. (1978), "The number of Baxter permutations" (PDF), Journal of Combinatorial Theory, Series A, 24 (3): 382–394, doi:10.1016/0097-3165(78)90068-7, MR 0491652.
  3. ^ Dulucq, S.; Guibert, O. (1998), "Baxter permutations", Discrete Mathematics, 180 (1–3): 143–156, doi:10.1016/S0012-365X(97)00112-X, MR 1603713.
  4. ^ Guibert, Olivier; Linusson, Svante (2000), "Doubly alternating Baxter permutations are Catalan", Discrete Mathematics, 217 (1–3): 157–166, doi:10.1016/S0012-365X(99)00261-7, MR 1766265.
  5. ^ Giraudo, Samuele (2011), "Algebraic and combinatorial structures on Baxter permutations", 23rd International Conference on Formal Power Series and Algebraic Combinatorics (FPSAC 2011), Discrete Math. Theor. Comput. Sci. Proc., vol. AO, Assoc. Discrete Math. Theor. Comput. Sci., Nancy, pp. 387–398, arXiv:1011.4288, Bibcode:2010arXiv1011.4288G, MR 2820726.
  6. ^ Bonichon, Nicolas; Bousquet-Mélou, Mireille; Fusy, Éric (October 2009), "Baxter permutations and plane bipolar orientations", Séminaire Lotharingien de Combinatoire, 61A, Art. B61Ah, 29pp, arXiv:0805.4180, Bibcode:2008arXiv0805.4180B, MR 2734180.
  7. ^ Korn, M. (2004), Geometric and algebraic properties of polyomino tilings, Ph.D. thesis, Massachusetts Institute of Technology.
  8. ^ Ackerman, Eyal; Barequet, Gill; Pinter, Ron Y. (2006), "A bijection between permutations and floorplans, and its applications", Discrete Applied Mathematics, 154 (12): 1674–1684, doi:10.1016/j.dam.2006.03.018, MR 2233287.
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