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arxiv: 1705.07835 · v1 · pith:3HWK7LZNnew · submitted 2017-05-22 · 🧮 math.CO

Counting De Bruijn sequences as perturbations of linear recursions

classification 🧮 math.CO
keywords bruijnfunctiongeneratinggraphlinearorderperturbationssequence
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Every binary De~Bruijn sequence of order n satisfies a recursion 0=x_n+x_0+g(x_{n-1}, ..., x_1). Given a function f on (n-1) bits, let N(f; r) be the number of functions generating a De Bruijn sequence of order n which are obtained by changing r locations in the truth table of f. We prove a formula for the generating function \sum_r N(\ell; r) y^r when \ell is a linear function. The proof uses a weighted Matrix Tree Theorem and a description of the in-trees (or rooted trees) in the n-bit De Bruijn graph as perturbations of the Hamiltonian paths in the same graph.

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