Aneta Neumann scite author profile

Diversity plays a crucial role in evolutionary computation. While diversity has been mainly used to prevent the population of an evolutionary algorithm from premature convergence, the use of evolutionary algorithms to obtain a diverse set of solutions has gained increasing attention in recent years. Diversity optimization in terms of features on the underlying problem allows to obtain a better understanding of possible solutions to the problem at hand and can be used for algorithm selection when dealing with combinatorial optimization problems such as the Traveling Salesperson Problem. We explore the use of the star-discrepancy measure to guide the diversity optimization process of an evolutionary algorithm.In our experimental investigations, we consider our discrepancy-based diversity optimization approaches for evolving diverse sets of images as well as instances of the Traveling Salesperson problem where a local search is not able to find near optimal solutions. Our experimental investigations comparing three diversity optimization approaches show that a discrepancy-based diversity optimization approach using a tie-breaking rule based on weighted differences to surrounding feature points provides the best results in terms of the star discrepancy measure.

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Evolving diverse TSP instances by means of novel and creative mutation operators

Bossek

Kerschke

Neumann

et al. 2019

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Pareto Optimization for Subset Selection with Dynamic Cost Constraints

Roostapour

Neumann

et al. 2019

AAAI

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In this paper, we consider the subset selection problem for function f with constraint bound B which changes over time. We point out that adaptive variants of greedy approaches commonly used in the area of submodular optimization are not able to maintain their approximation quality. Investigating the recently introduced POMC Pareto optimization approach, we show that this algorithm efficiently computes a φ = (α f /2)(1 − 1 e α f )-approximation, where α f is the submodularity ratio of f , for each possible constraint bound b ≤ B. Furthermore, we show that POMC is able to adapt its set of solutions quickly in the case that B increases. Our experimental investigations for the influence maximization in social networks show the advantage of POMC over generalized greedy algorithms.

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Evolutionary image composition using feature covariance matrices

Neumann

Szpak

Chojnacki

et al. 2017

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Evolutionary algorithms have recently been used to create a wide range of artistic work. In this paper, we propose a new approach for the composition of new images from existing ones, that retain some salient features of the original images. We introduce evolutionary algorithms that create new images based on a fitness function that incorporates feature covariance matrices associated with different parts of the images. This approach is very flexible in that it can work with a wide range of features and enables targeting specific regions in the images. For the creation of the new images, we propose a population-based evolutionary algorithm with mutation and crossover operators based on random walks. Our experimental results reveal a spectrum of aesthetically pleasing images that can be obtained with the aid of our evolutionary process.

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Optimization of Chance-Constrained Submodular Functions

Doerr

Neumann

et al. 2020

AAAI

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Submodular optimization plays a key role in many real-world problems. In many real-world scenarios, it is also necessary to handle uncertainty, and potentially disruptive events that violate constraints in stochastic settings need to be avoided. In this paper, we investigate submodular optimization problems with chance constraints. We provide a first analysis on the approximation behavior of popular greedy algorithms for submodular problems with chance constraints. Our results show that these algorithms are highly effective when using surrogate functions that estimate constraint violations based on Chernoff bounds. Furthermore, we investigate the behavior of the algorithms on popular social network problems and show that high quality solutions can still be obtained even if there are strong restrictions imposed by the chance constraint.

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Evolutionary Image Transition Using Random Walks

Neumann

Alexander

Neumann

2017

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Evolutionary diversity optimization using multi-objective indicators

Neumann

Gao

Wagner

et al. 2019

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Evolutionary diversity optimization aims to compute a diverse set of solutions where all solutions meet a given quality criterion. With this paper, we bridge the areas of evolutionary diversity optimization and evolutionary multi-objective optimization. We show how popular indicators frequently used in the area of multi-objective optimization can be used for evolutionary diversity optimization. Our experimental investigations for evolving diverse sets of TSP instances and images according to various features show that two of the most prominent multi-objective indicators, namely the hypervolume indicator and the inverted generational distance, provide excellent results in terms of visualization and various diversity indicators.

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On the Performance of Baseline Evolutionary Algorithms on the Dynamic Knapsack Problem

Roostapour

Neumann

2018

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Evolutionary algorithms are bio-inspired algorithms that can easily adapt to changing environments. In this paper, we study singleand multi-objective baseline evolutionary algorithms for the classical knapsack problem where the capacity of the knapsack varies over time.We establish different benchmark scenarios where the capacity changes every τ iterations according to a uniform or normal distribution. Our experimental investigations analyze the behavior of our algorithms in terms of the magnitude of changes determined by parameters of the chosen distribution, the frequency determined by τ and the class of knapsack instance under consideration. Our results show that the multi-objective approaches using a population that caters for dynamic changes have a clear advantage on many benchmarks scenarios when the frequency of changes is not too high.

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Aneta Neumann

Discrepancy-based evolutionary diversity optimization

Evolving diverse TSP instances by means of novel and creative mutation operators

Pareto Optimization for Subset Selection with Dynamic Cost Constraints

Evolutionary image composition using feature covariance matrices

Optimization of Chance-Constrained Submodular Functions

Evolutionary Image Transition Using Random Walks

Evolutionary diversity optimization using multi-objective indicators

On the Performance of Baseline Evolutionary Algorithms on the Dynamic Knapsack Problem

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