William Y. C. Chen scite author profile

A leaf of a plane tree is called an old leaf if it is the leftmost child of its parent, and it is called a young leaf otherwise. In this paper we enumerate plane trees with a given number of old leaves and young leaves. The formula is obtained combinatorially by presenting two bijections between plane trees and 2-Motzkin paths which map young leaves to red horizontal steps, and old leaves to up steps plus one. We derive some implications to the enumeration of restricted permutations with respect to certain statistics such as pairs of consecutive deficiencies, double descents, and ascending runs. Finally, our main bijection is applied to obtain refinements of two identities of Coker, involving refined Narayana numbers and the Catalan numbers.

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The q-log-convexity of the Narayana polynomials of type B

Chen

Tang

Wang

et al. 2010

Advances in Applied Mathematics

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We prove a conjecture of Liu and Wang on the q-log-convexity of the Narayana polynomials of type B. By using Pieri's rule and the Jacobi-Trudi identity for Schur functions, we obtain an expansion of a sum of products of elementary symmetric functions in terms of Schur functions with nonnegative coefficients. By the principal specialization this, leads to q-log-convexity. We also show that the linear transformation with respect to the triangular array of Narayana numbers of type B is log-convexity preserving.

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The Abel-Zeilberger Algorithm

Chen¹,

Hou²,

Jin³

2011

Electron. J. Combin.

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We use both Abel's lemma on summation by parts and Zeilberger's algorithm to find recurrence relations for definite summations. The role of Abel's lemma can be extended to the case of linear difference operators with polynomial coefficients. This approach can be used to verify and discover identities involving harmonic numbers and derangement numbers. As examples, we use the Abel-Zeilberger algorithm to prove the Paule-Schneider identities, the Apéry-Schmidt-Strehl identity, Calkin's identity and some identities involving Fibonacci numbers.

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Families of Sets with Intersecting Clusters

Chen¹,

Liu²,

Wang³

2009

SIAM J. Discrete Math.

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A family of k-subsets A 1 , A 2 , . . . , A d on [n] = {1, 2, . . . , n} is called a (d, c)-cluster if the union A 1 ∪ A 2 ∪ · · · ∪ A d contains at most ck elements with c < d. Let F be a family of k-subsets of an n-element set. We show that for k ≥ 2 and n ≥ k + 2, if every (k, 2)-cluster of F is intersecting, then F contains no (k − 1)-dimensional simplices. This leads to an affirmative answer to Mubayi's conjecture for d = k based on Chvátal's simplex theorem. We also show that for any d satisfying 3 ≤ d ≤ k and n ≥ dk d−1 , if every (d, d+12 )-cluster is intersecting, then |F| ≤ n−1 k−1 with equality only when F is a complete star. This result is an extension of both Frankl's theorem and Mubayi's theorem.

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William Y. C. Chen

Recurrence Relations for Strongly q-Log-Convex Polynomials

Old and young leaves on plane trees

The q-log-convexity of the Narayana polynomials of type B

The Abel-Zeilberger Algorithm

Families of Sets with Intersecting Clusters

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