Deprecated: $wgMWOAuthSharedUserIDs=false is deprecated, set $wgMWOAuthSharedUserIDs=true, $wgMWOAuthSharedUserSource='local' instead [Called from MediaWiki\HookContainer\HookContainer::run in /var/www/html/w/includes/HookContainer/HookContainer.php at line 135] in /var/www/html/w/includes/Debug/MWDebug.php on line 372

Notice: Unexpected clearActionName after getActionName already called in /var/www/html/w/includes/Context/RequestContext.php on line 321
An Empirical Comparison of Meta-Modeling Techniques for Robust Design Optimization - MaRDI portal

Deprecated: Use of MediaWiki\Skin\SkinTemplate::injectLegacyMenusIntoPersonalTools was deprecated in Please make sure Skin option menus contains `user-menu` (and possibly `notifications`, `user-interface-preferences`, `user-page`) 1.46. [Called from MediaWiki\Skin\SkinTemplate::getPortletsTemplateData in /var/www/html/w/includes/Skin/SkinTemplate.php at line 691] in /var/www/html/w/includes/Debug/MWDebug.php on line 372

Deprecated: Use of QuickTemplate::(get/html/text/haveData) with parameter `personal_urls` was deprecated in MediaWiki Use content_navigation instead. [Called from MediaWiki\Skin\QuickTemplate::get in /var/www/html/w/includes/Skin/QuickTemplate.php at line 131] in /var/www/html/w/includes/Debug/MWDebug.php on line 372

An Empirical Comparison of Meta-Modeling Techniques for Robust Design Optimization

From MaRDI portal
(Redirected from Dataset:6690428)



DOI10.5281/zenodo.3854910Zenodo3854910MaRDI QIDQ6690428

Dataset published at Zenodo repository.

Author name not available (Why is that?)

Publication date: 20 February 2020

Copyright license: No records found.



Description

This is the data and source code used in the paper below: Sibghat Ullah, Hao Wang, Stefan Menzel, Bernhard Sendhoff and Thomas Bck, An Empirical Comparison of Meta-Modeling Techniques for Robust Design Optimization, in 2019 IEEE Symposium Series on Computational Intelligence (SSCI), Xiamen, China, 6-9 December 2019, doi:10.1109/SSCI44817.2019.9002805 This research investigates the potential of using meta-modeling techniques in the context of robust optimization namely optimization under uncertainty/noise. A systematic empirical comparison is performed for evaluating and comparing different meta-modeling techniques for robust optimization. The experimental setup includes three noise levels, six meta-modeling algorithms, and six benchmark problems from the continuous optimization domain, each for three different dimensionalities. Two robustness definitions: robust regularization and robust composition, are used in the experiments. The meta-modeling techniques are evaluated and compared with respect to the modeling accuracy and the optimal function values. The results clearly show that Kriging, Support Vector Machine and Polynomial regression perform excellently as they achieve high accuracy and the optimal point on the model landscape is close to the true optimum of test functions in most cases.






This page was built for dataset: An Empirical Comparison of Meta-Modeling Techniques for Robust Design Optimization

Retrieved from "https://mardi.schubotz.org/w/index.php?title=An_Empirical_Comparison_of_Meta-Modeling_Techniques_for_Robust_Design_Optimization&oldid=44855110"
Powered by MediaWiki