引用本文:张水平,张奇涵,王碧.基于多任务学习多目标优化的稀土元素组分含量与浓度多维度软测量[J].控制理论与应用,2024,41(3):454~467.[点击复制]
ZHANG Shui-ping,Zhang Qi-han,WANG Bi.Content and concentration of rare earth element components based on multi-task learning multi-objective optimization multidimensional soft measurement[J].Control Theory and Technology,2024,41(3):454~467.[点击复制]
基于多任务学习多目标优化的稀土元素组分含量与浓度多维度软测量
Content and concentration of rare earth element components based on multi-task learning multi-objective optimization multidimensional soft measurement
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DOI编号  10.7641/CTA.2023.20871
  2024,41(3):454-467
中文关键词  稀土萃取  组分含量  多任务学习  多目标优化  机器学习  深度学习  帕累托
英文关键词  rare earth extraction  component content  multi-task learning  multi-objective optimization  machine learning  deep learning  Pareto
基金项目  江西理工大学博士科研启动基金项目(2022205200100595), 国家自然科学基金委员会项目(72261018), 江西省教育厅青年项目(GJJ2200868)资助.
作者单位E-mail
张水平 江西理工大学  
张奇涵 江西理工大学 zhangqihan0722@163.com 
王碧* 江西理工大学  
中文摘要
      稀土混合萃取溶液中各元素组分含量的在线软测量是优化连续萃取生产过程、确保产品高纯化的前提. 现 有软测量方法可独立求解单个稀土元素组分含量, 但忽略了多元素组分含量间或组分含量与其它相关因素(如浓 度)间的共性. 本文为探索多稀土元素组分含量间及组分含量与浓度间的共性, 将多任务学习方法用于稀土元素组 分含量软测量中. 首先, 构建多任务深度神经网络, 提高模型的泛化能力和鲁棒性. 其次, 提出基于多目标优化算法 的稀土多元素组分含量预测方法, 通过搜索Pareto最优以提升各任务的预测精度. 经多组对比实验表明, 该方法在 多元素组分含量或多元素组分含量与浓度同时训练时性能最佳, 能满足稀土元素组分含量在线检测的精确性和实 时性.
英文摘要
      Online soft measurement of the component content of each element in a mixed rare earth extraction solution is a prerequisite for optimizing the continuous extraction production process and ensuring high purity of the product. Existing soft measurement methods can solve for individual rare earth element fractions independently, but ignore the commonality between multi-element fractions or between fractions and other relevant factors (e.g. concentration). A multi-task learning approach is used to explore the commonality between the component content of multiple rare earth elements and between the component content and concentration in soft measurements of rare earth elements. Firstly, a multi-task deep neural network is constructed to improve the generalization ability and robustness of the model. Secondly, a multi-objective optimization algorithm is proposed to improve the prediction accuracy of each task by searching the Pareto optimum. After several sets of comparison experimental results, it is shown that the method has the best performance when the multielement component content or multi-element component content and concentration are trained at the same time, which can meet the accuracy and real-time performance of online detection of rare earth elemental component content.