Thomas Dreyfus scite author profile

In the present paper, we use difference Galois theory to study the nature of the generating series counting walks in the quarter plane. These series are trivariate formal power series Q(x, y, t) that count the number of discrete paths confined in the first quadrant of the plane with a fixed directions set. While the variables x and y are associated to the ending point of the path, the variable t encodes its length. In this paper, we prove that if Q(x, y, t) does not satisfy any algebraic differential relations with respect to x or y, it does not satisfy any algebraic differential relations with respect to the parameter t. Combined with [BBMR16, DHRS18, DHRS17], we are able to characterize the t-differential transcendence of the generating series for any unweighted walk.

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Hypertranscendence of solutions of Mahler equations

Dreyfus

Hardouin

Roques

2018

J. Eur. Math. Soc.

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The last years have seen a growing interest from mathematicians in Mahler functions. This class of functions includes the generating series of the automatic sequences. The present paper is concerned with the following problem, which is rather frequently encountered in combinatorics: a set of Mahler functions u 1 , ..., un being given, are u 1 , ..., un and their successive derivatives algebraically independent? In this paper, we give general criteria ensuring an affirmative answer to this question. We apply our main results to the generating series attached to the so-called Baum-Sweet and Rudin-Shapiro automatic sequences. In particular, we show that these series are hyperalgebraically independent, i.e., that these series and their successive derivatives are algebraically independent. Our approach relies of the parametrized difference Galois theory (in this context, the algebro-differential relations between the solutions of a given Mahler equation are reflected by a linear differential algebraic group). 14 3.

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Computing the Galois group of some parameterized linear differential equation of order two

Dreyfus

2014

Proc. Amer. Math. Soc.

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Thomas Dreyfus

On the nature of the generating series of walks in the quarter plane

Hypertranscendence of solutions of Mahler equations

Computing the Galois group of some parameterized linear differential equation of order two

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