A blockchain-enabled deep residual architecture for accountable, in-situ quality control in industry 4.0 with minimal latency

【Author】 Leontaris, Lampros; Mitsiaki, Andreana; Charalampous, Paschalis; Dimitriou, Nikolaos; Leivaditou, Eleni; Karamanidis, Aristoklis; Margetis, George; Apostolakis, Konstantinos C.; Pantoja, Sebastian; Stephanidis, Constantine; Tzovaras, Dimitrios; Papageorgiou, Elpiniki

【Source】COMPUTERS IN INDUSTRY

【影响因子】11.245

【Abstract】Real-time and vision-based quality control for industrial processes has drawn great interest from both scientists and practitioners, particularly following the transition to Zero Defect Manufacturing (ZDM) and Industry 4.0. Despite considerable progress, most ZDM approaches focus on the accuracy of the inspection process, often neglecting critical factors for application in the shop floor. On one hand, near real-time methods are needed for early defect detection and containment. On the other hand, data scarcity is an issue causing AI methods to overfit. Another concern is the accountability of AI results, since even if an AI pipeline is successfully deployed, its predictions are not verifiable in the long term. In this work, we explore a real-time solution based on lightweight Deep Residual Networks and Blockchain technology to address these issues. Concretely, we propose a two-phase training strategy to boost the performance of baseline classifiers while maintaining low inference times. The performance of the proposed methodology is presented in two different industrial use cases with strict timing requirements, one concerning battery assembly line and the other antenna manufacturing. We validate the proposed method for defect detection and compare the results with common training strategies demonstrating an improvement of 3% and 10% in F1-score and accuracy on the two cases respectively, while lowering inference time by 2.2x compared to existing light architectures. Contributing to the accountability of AI results, we present an IoT framework using Blockchain deployed in Private Ethereum.

【Keywords】Deep residual networks; Quality control; Industry 4; 0; Zero-defect manufacturing; Blockchain IoT

【发表时间】2023 AUG

【收录时间】2023-06-07

【文献类型】实验仿真

【主题类别】

区块链应用-实体经济-质量管理领域