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Dual Cheeger Constants, Signless 1-Laplacians and Maxcut

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arxiv 1607.00489 v2 pith:WZNVLNRQ submitted 2016-07-02 math.SP math.COmath.OC

Dual Cheeger Constants, Signless 1-Laplacians and Maxcut

classification math.SP math.COmath.OC
keywords problemcheegerdualmaxcutspectralalgorithmapproximatefirst
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The first nontrivial lower bound of the worst-case approximation ratio for the maxcut problem was achieved via the dual Cheeger problem, whose optimal value is referred to the dual Cheeger constant $h^+$, and later improved through its modification $\widehat{h}^+$. However, the dual Cheeger problem and its modification themselves are relatively unexplored, especially lack of effective approximate algorithms. To this end, we first derive equivalent spectral formulations of $h^+$ and $\widehat{h}^+$ within the framework of the nonlinear spectral theory of signless 1-Laplacian, present their interactions with the Laplacian matrix and 1-Laplacian, and then use them to develop an inverse power algorithm that leverages the local linearity of the objective functions involved. We prove that the inverse power algorithm monotonically converges to a ternary-valued eigenvector, and provide the approximate values of $h^+$ and $\widehat{h}^+$ on G-set for the first time. The recursive spectral cut algorithm for the maxcut problem can be enhanced by integrating into the inverse power algorithms, leading to significantly improved approximate values on G-set. Finally, we show that the lower bound of the worst-case approximation ratio for the maxcut problem within the recursive spectral cut framework can not be improved beyond $0.769$.

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    math.CO 2026-06 unverdicted novelty 7.0

    Establishes sharp Cheeger-type inequalities bounding the second largest spectral gap from 1 of the normalized Laplacian via classical constants and a new probabilistic constant for two-step walks.