In this paper, we develop a more efficient co-design algorithm, Genetic Algorithm with Successive Halving (GASH), which focuses available computational ...
In this paper, we develop a more efficient co-design algorithm, Genetic Algorithm with Successive Halving (GASH), which focuses available computational ...
Therefore, in this paper, we develop a more efficient co-design algorithm, Genetic Algorithm with Successive Halving (GASH), which focuses available com-.
In this paper, we propose algorithms that extend asynchronous successive halving (ASHA) to the MO setting. Considering multiple evaluation metrics, we assess ...
GA-based Co-Design Algorithm with Successive Halving ; Q1. ASME. Co-Design of the Morphology and Actuation of Soft Robots for Locomotion. van Diepen M., Shea K.
Apr 25, 2024 · Shunsuke Katayama, Adam Kotaro Pindur, Hitoshi Iba: GA-based Co-Design Algorithm with Successive Halving. IIAI-AAI 2023: 430-437.
A novel genetic algorithm–active learning (GA-AL) approach for complex simulation models was developed and embedded in an optimization framework.
A more efficient co-design algorithm, Genetic Algorithm with Successive Halving (GASH), which focuses available computational resources on promising robot ...
Oct 22, 2024 · GA-based Co-Design Algorithm with Successive Halving. Conference Paper. Jul 2023. Shunsuke Katayama · Adam Kotaro Pindur · Hitoshi Iba · View.
Aug 12, 2024 · This paper proposes a genetic algorithm (GA)-enabled co-design method for the development of metamaterials with on-demand microwave reflectivity ...
Missing: Successive Halving.