An Innovative Visual Weighing Method
Measuring Bulk Material Mass Flows via Belt Deformation Field With Deep Learning
Wei Qiao (Taiyuan University of Technology)
Xiaoyan Xiong (Taiyuan University of Technology)
Chen Jie (Taiyuan University of Technology)
Huijie Dong (Taiyuan University of Technology)
Y Pang (TU Delft - Transport Engineering and Logistics)
Junzhi Yu (Peking University)
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Abstract
This article presents an innovative visual method for measuring material mass online by quantified conveyor belt deformation with deep learning, which offers a noncontact and safe alternative to traditional pressure- and radioactivity-based weighing techniques. The correlation between the belt deformation and the carried material mass is further investigated through finite element simulations. Then, a visual weighing method by belt deformation is proposed, comprising a calibration algorithm to construct a measurement model using a gated recurrent unit-based network, and an online measurement algorithm to calculate material mass with the trained network. Finally, a case study is presented to analyze the effect of different dimension configurations and networks. The results validate that the proposed method attains a notable accuracy and is suitable for high-velocity conveyor environments. The demonstrated benefits signify an advancement in visual perception of materials, enabling a new approach for intelligent operation and monitoring in material handling field.