Machine learning and deep learning based predictive quality in manufacturing: a systematic review
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Abstract
Abstract With the ongoing digitization of the manufacturing industry and the ability to bring together data from manufacturing processes and quality measurements, there is enormous potential to use machine learning and deep learning techniques for quality assurance. In this context, predictive quality enables manufacturing companies to make data-driven estimations about the product quality based on process data. In the current state of research, numerous approaches to predictive quality exist in a wide variety of use cases and domains. Their applications range from quality predictions during production using sensor data to automated quality inspection in the field based on measurement data. However, there is…
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2Topics & keywords
Topics
Keywords
- Quality (philosophy)
- Context (archaeology)
- Field (mathematics)
- Computer science
- Artificial intelligence
- Digitization
- Machine learning
- Quality assurance
UN Sustainable Development Goals
- Industry, innovation and infrastructure
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