Communications Engineering (Feb 2024)

Reinforcement learning-based control for waste biorefining processes under uncertainty

  • Ji Gao,
  • Abigael Wahlen,
  • Caleb Ju,
  • Yongsheng Chen,
  • Guanghui Lan,
  • Zhaohui Tong

DOI
https://doi.org/10.1038/s44172-024-00183-7
Journal volume & issue
Vol. 3, no. 1
pp. 1 – 10

Abstract

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Abstract Waste biorefining processes face significant challenges related to the variability of feedstocks. The supply and composition of multiple feedstocks in these processes can be uncertain, making it difficult to achieve economically feasible and sustainable waste valorization for large-scale production. Here, we introduce a reinforcement learning-based framework that aims to control these uncertainties and improve the efficiency of the process. The framework is tested on an anaerobic digestion process and is found to perform better than traditional control strategies. In the short term, it achieves faster target tracking with increased precision and accuracy, while in the long term, it shows adaptive and robust behavior even under additional seasonal supply variability, meeting downstream demand with high probability. This reinforcement learning-based framework offers a promising and scalable solution to address uncertainty issues in real-world biorefining processes. If implemented, this framework could contribute to sustainable waste management practices globally, making waste biorefining processes more economically viable and environmentally friendly.