[Apologies for cross
posting]
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The 2nd Workshop on Evolutionary Algorithms for Problems
with Uncertainty
http://eapwu.ex.ac.uk/
To be held as part of
The Genetic and Evolutionary Computation Conference (GECCO 2019)
Prague, Czech Republic, 13-17 July 2019.
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IMPORTANT DATES:
Submission opening: February 27, 2019
Submission deadline: April 3, 2019
Notification: April 17, 2019
Camera-ready: April 24, 2019
Workshop Dates: 13 & 14 July 2019 (exact time and date to be announced).
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CALL FOR PAPERS:
In many real-world optimisation problems, uncertainty is present in various forms.
One prominent example is the sensitivity of the optimal solution to noise or perturbations in the environment. In such cases, handling uncertainty effectively can be critical for finding
good robust solutions, in particular, when the uncertainty results in severe loss of quality. In recent years, uncertainty in its various forms
has attracted a lot of attention from the evolutionary computation community.
Optimisation problems can be categorised as one of four types, depending on the source of uncertainty:
1. robust problems, where the uncertainty arises in design or environmental variables,
2. noisy problems, where the uncertainty arises in objective space,
3. approximated problems, where the approximated objective function(s) are subject to error, and
4. dynamic problems, where the objective function(s) changes over time.
Robust optimisation includes situations where the chosen design cannot be realised in a real-world setting without some error. Additionally, the solution may need to perform well under
a set of different scenarios and/or under some assumptions of parameter drifts. Typically, explicit methods for handling
this type of uncertainty rely on resampling the assumed scenario set in order to approximate the underlying robust fitness landscape. Noisy optimisation refers to problems in which the estimate of the quality of an individual is subject to some randomness,
e.g. if the objective value is calculated from the output of a stochastic simulation or solver. In this case, the estimate of the expected objective value is usually based on several resamples of a given solution. However, methods that rely on resampling of
solutions are often inadequate in situations where the evaluations are expensive.
These problems have been a concern for the
community for a number
of years, and there is a growing need for new
methods to handle the various types of uncertainty in a wide variety of problem domains. In addition, the field stands to benefit greatly from new methods for assessing
the performance of algorithms for optimisation
in uncertain environments and development of suitable benchmark problems. This workshop is designed to bring together practitioners from different subfields in the evolutionary computing community to share their ideas and methods.
Particular topics of interest include, but are not limited to:
Efficient methods for optimisation
under uncertainty
Studies of the inherent capabilities of EAs to handle different types of uncertainty
New ranking and selections operators for optimising
under uncertainty
Meta-modelling for handling
uncertainty
Methods for fitness
approximation under uncertainty
Quantifying the robustness of solutions
Real-World applications that suffer from various types of uncertainty
New benchmark problems for various
types of uncertainty
Design of experiments for estimating
robust designs
Coping with multiple sources and forms
of uncertainty
Multi-objective optimisation in uncertain contexts
Casting a problem with uncertainty as a multi-objective problem
SUBMISSIONS:
Abstracts must not exceed 200 words and the maximum length of papers is
8 pages. We also welcome position papers of
up to 2 pages showcasing exciting exploratory and preliminary results. Authors should follow the GECCO Submission Instructions and submissions should be sent through the GECCO Submission Site. Accepted papers will
be published in the GECCO Companion Proceedings and will be presented orally at the workshop.
ORGANISERS:
Ozgur Akman, Senior Lecturer, University of Exeter
Khulood Alyahya, Research Fellow, University of Exeter
Juergen Branke, Professor of Operational Research & Systems, University of Warwick
Jonathan Fieldsend, Associate Professor, University of Exeter
--
Khulood Alyahya, PhD.
Research Fellow