Dynamic Multi-Objective Evolutionary Algorithms in Noisy Environments
Citation
SAHMOUD, Shaaban & Haluk Rahmi TOPCUOĞLU. "Dynamic Multi-Objective Evolutionary Algorithms in Noisy Environments". Information Sciences, 634 (2023): 650-664.Abstract
Real-world multi-objective optimization problems encounter different types of uncertainty that
may affect the quality of solutions. One common type is the stochastic noise that contaminates
the objective functions. Another type of uncertainty is the different forms of dynamism including
changes in the objective functions. Although related work in the literature targets only a
single type, in this paper, we study Dynamic Multi-objective Optimization problems (DMOPs)
contaminated with stochastic noises by dealing with the two types of uncertainty simultaneously.
In such problems, handling uncertainty becomes a critical issue since the evolutionary process
should be able to distinguish between changes that come from noise and real environmental
changes that resulted from different forms of dynamism. To study both noisy and dynamic
environments, we propose a flexible mechanism to incorporate noise into the DMOPs. Two
novel techniques called Multi-Sensor Detection Mechanism (MSD) and Welford-Based Detection
Mechanism (WBD) are proposed to differentiate between real change points and noise points.
The proposed techniques are incorporated into a set of Dynamic Multi-objective Evolutionary
Algorithms (DMOEAs) to analyze their impact. Our empirical study reveals the effectiveness of
the proposed techniques for isolating noise from real dynamic changes and diminishing the noise
effect on performance.