David Stangl scite author profile

David Stangl

4Publications

50Citation Statements Received

107Citation Statements Given

How they've been cited

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103

Affiliations

University of Potsdam, Hasso Plattner Institute

Publications

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Convergence and Hardness of Strategic Schelling Segregation

Echzell

Friedrich

Lenzner

et al. 2019

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The phenomenon of residential segregation was captured by Schelling's famous segregation model where two types of agents are placed on a grid and an agent is content with her location if the fraction of her neighbors which have the same type as her is at least τ , for some 0 < τ < 1. Discontent agents simply swap their location with a randomly chosen other discontent agent or jump to a random empty cell.We analyze a generalized game-theoretic model of Schelling segregation which allows more than two agent types and more general underlying graphs modeling the residential area. For this we show that both aspects heavily influence the dynamic properties and the tractability of finding an optimal placement. We map the boundary of when improving response dynamics (IRD), i.e., the natural approach for finding equilibrium states, are guaranteed to converge. For this we prove several sharp threshold results where guaranteed IRD convergence suddenly turns into the strongest possible non-convergence result: a violation of weak acyclicity. In particular, we show such threshold results also for Schelling's original model, which is in contrast to the standard assumption in many empirical papers. Furthermore, we show that in case of convergence, IRD find an equilibrium in O(m) steps, where m is the number of edges in the underlying graph and show that this bound is met in empirical simulations starting from random initial agent placements.

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Linespace

Swaminathan¹,

Roumen

Kovács

et al. 2016

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Convergence and Hardness of Strategic Schelling Segregation

Echzell¹,

Friedrich²,

Lenzner³

et al. 2019

Preprint

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An Efficient Branch-and-Bound Solver for Hitting Set

Bläsius¹,

Friedrich²,

Stangl³

et al. 2021

Preprint

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The hitting set problem asks for a collection of sets over a universe U to find a minimum subset of U that intersects each of the given sets. It is NP-hard and equivalent to the problem set cover. We give a branch-and-bound algorithm to solve hitting set. Though it requires exponential time in the worst case, it can solve many practical instances from different domains in reasonable time. Our algorithm outperforms a modern ILP solver, the state-of-the-art for hitting set, by at least an order of magnitude on most instances.

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David Stangl

Convergence and Hardness of Strategic Schelling Segregation

Linespace

Convergence and Hardness of Strategic Schelling Segregation

An Efficient Branch-and-Bound Solver for Hitting Set

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