Adaptive operator selection utilising generalised experience
This work addresses scalability issues in adaptive operator selection for evolutionary algorithms, but it appears incremental as it builds on existing RL methods without major breakthroughs.
The paper tackles the challenge of balancing exploration and exploitation in combinatorial optimization by proposing a reinforcement learning-based adaptive operator selection framework, achieving a certain level of success in experimental results.
Optimisation problems, particularly combinatorial optimisation problems, are difficult to solve due to their complexity and hardness. Such problems have been successfully solved by evolutionary and swarm intelligence algorithms, especially in binary format. However, the approximation may suffer due to the the issues in balance between exploration and exploitation activities (EvE), which remain as the major challenge in this context. Although the complementary usage of multiple operators is becoming more popular for managing EvE with adaptive operator selection schemes, a bespoke adaptive selection system is still an important topic in research. Reinforcement Learning (RL) has recently been proposed as a way to customise and shape up a highly effective adaptive selection system. However, it is still challenging to handle the problem in terms of scalability. This paper proposes and assesses a RL-based novel approach to help develop a generalised framework for gaining, processing, and utilising the experiences for both the immediate and future use. The experimental results support the proposed approach with a certain level of success.