Time-Attention Graph Convolutional Network Soft Sensor in Biochemical Processes

2022 4th International Conference on Industrial Artificial Intelligence (IAI) Pub Date : 2022-08-24 DOI:10.1109/IAI55780.2022.9976863

Mingwei Jia, Danya Xu, Tao Yang, Y. Yao, Yi Liu

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Abstract

Most data-driven soft sensor methods can model nonlinear time-varying characteristics of biochemical processes. However, the intrinsic relationship between variables, which is helpful for understanding model behavior, has rarely been investigated in existing data-driven methods. In this work, a novel soft sensor model of time-attention graph convolutional network (TA-GCN) is proposed, which jointly leverages variable relationships and long-term temporal dependencies to improve interpretability and prediction accuracy. This model first uses the maximum information coefficient to construct a topology graph and trains edge strengths end-to-end. The data are then encoded in the spatial-temporal dimension based on GCN and attention mechanism. Finally, the empirical knowledge that analyzes the operating state of the process and graph are combined to explain the model behavior. In comparison to existing soft sensors, TA-GCN enables efficient and scalable training for long-term spatial-temporal dependencies. Experimental results on InPenSim dataset demonstrate that TA-GCN is competitive with state-of-the-art methods.

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生化过程中的时间-注意力图卷积网络软传感器

大多数数据驱动的软测量方法都可以模拟生化过程的非线性时变特性。然而，在现有的数据驱动方法中，很少研究有助于理解模型行为的变量之间的内在关系。本文提出了一种新的时间-注意力图卷积网络(TA-GCN)软传感器模型，该模型联合利用变量关系和长期时间依赖性来提高可解释性和预测精度。该模型首先利用最大信息系数构造拓扑图，端到端训练边缘强度。然后基于GCN和注意机制对数据进行时空编码。最后，结合分析过程运行状态的经验知识和图形来解释模型的行为。与现有的软传感器相比，TA-GCN能够对长期时空依赖性进行有效和可扩展的训练。在InPenSim数据集上的实验结果表明，TA-GCN与最先进的方法相比具有竞争力。

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2022 4th International Conference on Industrial Artificial Intelligence (IAI)

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