6,188 research outputs found

    Restricted 132-Dumont permutations

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    A permutation π\pi is said to be {\em Dumont permutations of the first kind} if each even integer in π\pi must be followed by a smaller integer, and each odd integer is either followed by a larger integer or is the last element of π\pi (see, for example, \cite{Z}). In \cite{D} Dumont showed that certain classes of permutations on nn letters are counted by the Genocchi numbers. In particular, Dumont showed that the (n+1)(n+1)st Genocchi number is the number of Dummont permutations of the first kind on 2n2n letters. In this paper we study the number of Dumont permutations of the first kind on nn letters avoiding the pattern 132 and avoiding (or containing exactly once) an arbitrary pattern on kk letters. In several interesting cases the generating function depends only on kk.Comment: 12 page

    Counting peaks at height k in a Dyck path

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    A Dyck path is a lattice path in the plane integer lattice Z×Z\mathbb{Z}\times\mathbb{Z} consisting of steps (1,1) and (1,-1), which never passes below the x-axis. A peak at height k on a Dyck path is a point on the path with coordinate y=k that is immediately preceded by a (1,1) step and immediately followed by a (1,-1) step. In this paper we find an explicit expression to the generating function for the number of Dyck paths starting at (0,0) and ending at (2n,0) with exactly r peaks at height k. This allows us to express this function via Chebyshev polynomials of the second kind and generating function for the Catalan numbers.Comment: 7 pages, 3 figure

    Average norms of polynomials

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    In this paper we study the average \NL_{2\alpha}-norm over TT-polynomials, where α\alpha is a positive integer. More precisely, we present an explicit formula for the average \NL_{2\alpha}-norm over all the polynomials of degree exactly nn with coefficients in TT, where TT is a finite set of complex numbers, α\alpha is a positive integer, and n≥0n\geq0. In particular, we give a complete answer for the cases of Littlewood polynomials and polynomials of a given height. As a consequence, we derive all the previously known results for this kind of problems, as well as many new results.Comment: 13 pages, key words: Littlewood polynomials, Polynomials of height $h
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