Multi-node environment strategy for Parallel Deterministic Multi-Objective Fractal Decomposition
This work addresses multi-objective optimization problems, but it appears incremental as it adapts an existing algorithm to a new computing environment.
The paper tackled multi-objective optimization by extending a deterministic fractal decomposition algorithm to a multi-node environment using containers, and compared its performance to state-of-the-art algorithms on classical benchmarks.
This paper presents a new implementation of deterministic multiobjective (MO) optimization called Multiobjective Fractal Decomposition Algorithm (Mo-FDA). The original algorithm was designed for mono-objective large scale continuous optimization problems. It is based on a divide and conquer strategy and a geometric fractal decomposition of the search space using hyperspheres. Then, to deal with MO problems a scalarization approach is used. In this work, a new approach has been developed on a multi-node environment using containers. The performance of Mo-FDA was compared to state of the art algorithms from the literature on classical benchmark of multi-objective optimization