Statistical Process Monitoring Using Advanced Data-Driven and Deep Learning Approaches

  • 6h
  • Amanda S. Hering, Fouzi Harrou, Muddu Madakyaru, Ying Sun, abdelkader Dairi
  • Elsevier Science and Technology Books, Inc.
  • 2020

Statistical Process Monitoring Using Advanced Data-Driven and Deep Learning Approaches tackles multivariate challenges in process monitoring by merging the advantages of univariate and traditional multivariate techniques to enhance their performance and widen their practical applicability. The book proceeds with merging the desirable properties of shallow learning approaches – such as a one-class support vector machine and k-nearest neighbours and unsupervised deep learning approaches – to develop more sophisticated and efficient monitoring techniques. Finally, the developed approaches are applied to monitor many processes, such as waste-water treatment plants, detection of obstacles in driving environments for autonomous robots and vehicles, robot swarm, chemical processes (continuous stirred tank reactor, plug flow rector, and distillation columns), ozone pollution, road traffic congestion, and solar photovoltaic systems.

In this Book

  • Introduction
  • Linear Latent Variable Regression (LVR)-Based Process Monitoring
  • Fault Isolation
  • Nonlinear Latent Variable Regression Methods
  • Multiscale Latent Variable Regression-Based Process Monitoring Methods
  • Unsupervised Deep Learning-Based Process Monitoring Methods
  • Unsupervised Recurrent Deep Learning Scheme for Process Monitoring
  • Case Studies
  • Conclusion and Further Research Directions

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