Sándor Z. Kiss scite author profile

In 1999 Kannan, Tetali and Vempala proposed a MCMC method to uniformly sample all possible realizations of a given graphical degree sequence and conjectured its rapidly mixing nature. Recently their conjecture was proved affirmative for regular graphs (by Cooper, Dyer and Greenhill, 2007), for regular directed graphs (by Greenhill, 2011) and for half-regular bipartite graphs (by Miklós, Erdős and Soukup, 2013).Several heuristics on counting the number of possible realizations exist (via sampling processes), and while they work well in practice, so far no approximation guarantees exist for such an approach. This paper is the first to develop a method for counting realizations with provable approximation guarantee. In fact, we solve a slightly more general problem; besides the graphical degree sequence a small set of forbidden edges is also given. We show that for the general problem (which contains the Greenhill problem and the Miklós, Erdős and Soukup problem as special cases) the derived MCMC process is rapidly mixing. Further, we show that this new problem is self-reducible therefore it provides a fully polynomial randomized approximation scheme (a.k.a. FPRAS) for counting of all realizations.

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Bloom Filter With a False Positive Free Zone

Kiss

Hosszú

Tapolcai

et al. 2021

IEEE Trans. Netw. Serv. Manage.

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Bloom filters and their variants are widely used as space efficient probabilistic data structures for representing set systems and are very popular in networking applications. They support fast element insertion and deletion, along with membership queries with the drawback of false positives. Bloom filters can be designed to match the false positive rates that are acceptable for the application domain. However, in many applications a common engineering solution is to set the false positive rate very small, and ignore the existence of the very unlikely false positive answers. This paper is devoted to close the gap between the two design concepts of unlikely and not having false positives. We propose a data structure, called EGH filter, that supports the Bloom filter operations and besides it can guarantee false positive free operations for a finite universe and a restricted number of elements stored in the filter. We refer to the limited universe and filter size as the false positive free zone of the filter. We describe necessary conditions for the false positive free zone of a filter and generalize the filter to support listing of the elements. We evaluate the performance of the filter in comparison with the traditional Bloom filters. Our data structure is based on recently developed combinatorial group testing techniques.

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On Sidon sets which are asymptotic bases

Kiss

2010

Acta Math Hung

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Let h 2 be an integer. We say that a set A of positive integers is an asymptotic basis of order h if every large enough positive integer can be represented as the sum of h terms from A. A set of positive integers A is called a Sidon set if all the sums a + b with a ∈ A, b ∈ A, a b, are distinct. In this paper we prove the existence of Sidon sets which are asymptotic bases of order 5 by using probabilistic methods.

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Sándor Z. Kiss

Approximate Counting of Graphical Realizations

Bloom Filter With a False Positive Free Zone

On Sidon sets which are asymptotic bases

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