Fermentation design and process optimization strategy based on machine learning

发酵 工艺优化 过程(计算) 计算机科学 工艺工程 生化工程 制造工程 工程类 化学 食品科学 化学工程 程序设计语言
作者
Zhen-Zhi Wang,Du-Wen Zeng,Yifan Zhu,Minghai Zhou,Akihiko Kondo,Tomohisa Hasunuma,Xin‐Qing Zhao
出处
期刊:Biodesign research [American Association for the Advancement of Science]
卷期号:7 (1): 100002-100002 被引量:34
标识
DOI:10.1016/j.bidere.2025.100002
摘要

Fermentation optimization is important for industrialization of biological manufacturing, and has been widely applied to diverse sectors including medicine, food, cosmetics and bioenergy, which is related to substantial economic benefits. Strain development is considered to be the core part of fermentation technology, as it directly influences the product yield and overall success of the fermentation process. However, fermentation design and process optimization also play a crucial role in fully exploring the genetic potential of engineered strains for efficient bioproduction. Due to the fact that fermentation process is influenced by complex factors, so far, machine learning has been widely used in this area with its strong capabilities of simulation and prediction. This review provides a brief introduction to the process of fermentation design and process optimization based on machine learning. In the workflow, experimental design strategy is fundamental to explore and characterize the performance of fermentation system. Then, machine learning modelling is employed to simulate the operation of fermentation system and the appropriate fermentation conditions, such as medium composition and process parameters, will be determined. Moreover, in recent years, some extension ideas of fermentation design based on machine learning have also been proposed, including automated fermentation process control, data mining for exploring strain characteristics, transfer learning, hybrid model building, and soft sensor construction. These strategies have created more application scenarios for machine learning, enhancing its adaptability in designing and optimizing the complex fermentation system for efficient bioproduction.
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