Publication detail
Benchmarking Derivative-Free Global Optimization Methods on Variable Dimension Robotics Problems
KŮDELA, J. JUŘÍČEK, M. PARÁK, R. TZANETOS, A. MATOUŠEK, R.
English title
Benchmarking Derivative-Free Global Optimization Methods on Variable Dimension Robotics Problems
Type
conference paper
Language
en
Original abstract
Several real-world applications introduce derivativefree optimization problems, called variable dimension problems, where the problem's dimension is not known in advance. Despite their importance, no unified framework for developing, comparing, and benchmarking variable dimension problems exists. The robot arm controlling problem is a variable dimension problem where the number of joints to optimize defines the problem's dimension. For a holistic study of global optimization methods, we studied 14 representative methods from 4 different categories, i.e., (i) local search optimization techniques with random restarts, (ii) state-of-the-art DIRECT-type methods, (iii) established Evolutionary Computation approaches, and (iv) state-of-the-art Evolutionary Computation approaches. To investigate the effect of the problem's dimensionality on the solution we generated 20 instances of various combinations among the number of predefined and open decision variables, and we performed experiments for various computational budgets. The results attest that the robot arm controlling problem provides a proper benchmark for variable dimensions. Furthermore, methods in-corporating local search techniques have dominant performance for higher dimensionalities of the problem, while state-of-the-art EC methods dominate in the lower dimensionalities.
English abstract
Several real-world applications introduce derivativefree optimization problems, called variable dimension problems, where the problem's dimension is not known in advance. Despite their importance, no unified framework for developing, comparing, and benchmarking variable dimension problems exists. The robot arm controlling problem is a variable dimension problem where the number of joints to optimize defines the problem's dimension. For a holistic study of global optimization methods, we studied 14 representative methods from 4 different categories, i.e., (i) local search optimization techniques with random restarts, (ii) state-of-the-art DIRECT-type methods, (iii) established Evolutionary Computation approaches, and (iv) state-of-the-art Evolutionary Computation approaches. To investigate the effect of the problem's dimensionality on the solution we generated 20 instances of various combinations among the number of predefined and open decision variables, and we performed experiments for various computational budgets. The results attest that the robot arm controlling problem provides a proper benchmark for variable dimensions. Furthermore, methods in-corporating local search techniques have dominant performance for higher dimensionalities of the problem, while state-of-the-art EC methods dominate in the lower dimensionalities.
Keywords in English
benchmarking; derivative-free optimization; global optimization; variable dimension problem; evolutionary computation
Released
08.08.2024
Publisher
IEEE
ISBN
979-8-3503-0836-5
Book
2024 IEEE Congress on Evolutionary Computation (CEC)
Pages count
8
BIBTEX
@inproceedings{BUT196902,
author="Jakub {Kůdela} and Martin {Juříček} and Roman {Parák} and Alexandros {Tzanetos} and Radomil {Matoušek},
title="Benchmarking Derivative-Free Global Optimization Methods on Variable Dimension Robotics Problems",
booktitle="2024 IEEE Congress on Evolutionary Computation (CEC)",
year="2024",
month="August",
publisher="IEEE",
isbn="979-8-3503-0836-5"
}