Application Of Machine Learning In Process Control In Optical Fiber Manufacturing

Application of Machine Learning in Process Control in Optical Fiber Manufacturing

Author : Mohamed Ayman Othman

Publisher :

Page : 0 pages

File Size : 32,17 MB

Release : 2023

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ISBN :

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Book Description

The current era of big data and IoT has propelled the manufacturing industry to the era of "Industry 4.0". This thesis presents an approach to manufacturing process control through the use of Machine Learning models in the optical fiber manufacturing industry. Utilizing measured production data from the fiber drawing tower, a long short-term memory (LSTM) neural network structure is used to find the correlation between the inputs and outputs of the process. Different experiments were conducted on the physical draw tower and the simulation to gauge the accuracy of the model and how well it mimics the plant's performance. This thesis, then, presents an in-depth investigation to the deployment of the digital twin model on an industrial PLC in order to control the diameter of the produced optic fiber at a given setpoint. The model would be able to predict and anticipate changes in the diameter and adjust the gains on the PLC to keep the process under control. This could potentially replace the iterative and laborious process of controller tuning and serve as a tool to be widely utilized in manufacturing settings.



Machine Learning for Future Fiber-Optic Communication Systems

Author : Alan Pak Tao Lau

Publisher : Academic Press

Page : 404 pages

File Size : 28,47 MB

Release : 2022-02-10

Category : Technology & Engineering

ISBN : 0323852289

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Book Description

Machine Learning for Future Fiber-Optic Communication Systems provides a comprehensive and in-depth treatment of machine learning concepts and techniques applied to key areas within optical communications and networking, reflecting the state-of-the-art research and industrial practices. The book gives knowledge and insights into the role machine learning-based mechanisms will soon play in the future realization of intelligent optical network infrastructures that can manage and monitor themselves, diagnose and resolve problems, and provide intelligent and efficient services to the end users. With up-to-date coverage and extensive treatment of various important topics related to machine learning for fiber-optic communication systems, this book is an invaluable reference for photonics researchers and engineers. It is also a very suitable text for graduate students interested in ML-based signal processing and networking. - Discusses the reasons behind the recent popularity of machine learning (ML) concepts in modern optical communication networks and the why/where/how ML can play a unique role - Presents fundamental ML techniques like artificial neural networks (ANNs), support vector machines (SVMs), K-means clustering, expectation-maximization (EM) algorithm, principal component analysis (PCA), independent component analysis (ICA), reinforcement learning, and more - Covers advanced deep learning (DL) methods such as deep neural networks (DNNs), convolutional neural networks (CNNs), recurrent neural networks (RNNs), and generative adversarial networks (GANs) - - Individual chapters focus on ML applications in key areas of optical communications and networking



Feasibility Study of Transfer Learning on LSTM Recurrent Neural Networks for Fiber Manufacturing Commercialization

Author : Nilay Sawant

Publisher :

Page : 0 pages

File Size : 16,40 MB

Release : 2022

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Book Description

This thesis explores business pathways to commercialize Device Realization Lab's technology that uses deep reinforcement learning for optical fiber manufacturing control systems. A viable business solution is proposed based on feedback from venture capital investors. The solution comprises developing cloud-based software that can generate digital twins for fiber manufacturing companies. These digital twins can serve as anomaly detectors and suggest optimal input parameters that reduce production variation and tolerance, improving quality and decreasing scrap rate. Efforts to define a minimum viable product (MVP) for this business solution began with the creation of a long short-term memory recurrent neural network (LSTM RNN) model for a desktop fiber extrusion system that mimics the fiber extrusion process on the manufacturing floor. Transfer learning on the LSTM RNN was then implemented to explore the feasibility of reusing a well-developed machine learning (ML) model for a fiber material (e.g. glass fiber) to construct an ML model for a separate fiber material (e.g. nylon fiber) for which a relatively low amount of data is available. The study found that applying transfer learning reduced the mean squared error of the new fiber material model by over 40% compared to developing the model without transfer learning. This thesis strives to reveal the innovative applications of the technology that can benefit the fiber manufacturing field and defines an MVP that can be shared with venture capital investors as a first step toward commercializing this technology.



Identifying Product and Process State Drivers in Manufacturing Systems Using Supervised Machine Learning

Author : Thorsten Wuest

Publisher : Springer

Page : 284 pages

File Size : 45,98 MB

Release : 2015-04-20

Category : Technology & Engineering

ISBN : 3319176110

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Book Description

The book reports on a novel approach for holistically identifying the relevant state drivers of complex, multi-stage manufacturing systems. This approach is able to utilize complex, diverse and high-dimensional data sets, which often occur in manufacturing applications, and to integrate the important process intra- and interrelations. The approach has been evaluated using three scenarios from different manufacturing domains (aviation, chemical and semiconductor). The results, which are reported in detail in this book, confirmed that it is possible to incorporate implicit process intra- and interrelations on both a process and programme level by applying SVM-based feature ranking. In practice, this method can be used to identify the most important process parameters and state characteristics, the so-called state drivers, of a manufacturing system. Given the increasing availability of data and information, this selection support can be directly utilized in, e.g., quality monitoring and advanced process control. Importantly, the method is neither limited to specific products, manufacturing processes or systems, nor by specific quality concepts.



Machine Learning Modeling with Application to Laser Powder Bed Fusion Additive Manufacturing Process

Author : Yi Ming Ren

Publisher :

Page : 193 pages

File Size : 49,95 MB

Release : 2022

Category :

ISBN :

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Book Description

Big data plays an important role in the fourth industrial revolution, which requires engineersand computers to fully utilize data to make smart decisions to optimize industrial processes. In the additive manufacturing (AM) industry, laser powder bed fusion (LPBF) and direct metal laser solidification (DMLS) have been receiving increasing interest in research because of their outstanding performance in producing mechanical parts with ultra-high precision and variable geometries. However, due to the thermal and mechanical complexity of these processes, printing failures are often encountered, resulting in defective parts and even destructive damage to the printing platform. For example, heating anomalies can result in thermal and mechanical stress on the building part and eventually lead to physical problems such as keyholing and lack of fusion. Many of the aforementioned process errors occur during the layer-to-layer printing process, which makes in-situ process monitoring and quality control extremely important. Although in-situ sensors are extensively developed to investigate and record information from the real-time printing process, the lack of efficient in-situ defect detection techniques specialized for AM processes makes real-time process monitoring and data analysis extremely difficult. Therefore, to help process engineers analyze sensor information and efficiently filter monitoring data for transport and storage, machine learning and data processing algorithms are often implemented. These algorithms integrate the functionality of automated data processing, transferring, and analytics. In particular, sensor data often takes the form of images, and thus, a prominent approach to conducting image analytics is through the use of convolutional neural networks (CNN). Nevertheless, the industrial utilization of machine learning methods often encounters problems such as limited and biased training datasets. Hence, simulation methods, such as the finite-element method (FEM), are used to augment and improve the training of the deep learning process monitoring algorithm. Motivated by the above considerations, this dissertation presents the use of machine learning techniques in process monitoring, data analytics, and data transfer for additive manufacturing processes. The background, motivation, and organization of this dissertation are first presented in the Introduction chapter. Then, the use of FEM to model and replicate in-situ sensor data is presented, followed by the use of machine learning techniques to conduct real-time process monitoring trained from a mixture of experimental and replicated sensor image data. In particular, a cross-validation algorithm is developed through the exploitation of different sensor advantages and is integrated into the machine learning-assisted process monitoring algorithm. Next, an application of machine learning (ML) to non-image sensor data is presented as a neural network model that is developed to estimate in-situ powder thickness to account for recoater arm interactions. Subsequently, an integrated AM smart manufacturing framework is proposed which connects the different manufacturing hierarchies, particularly at the local machine, factory, and cloud level. Finally, in addition to the AM industry, the use of machine learning, specifically neural networks, in model predictive control (MPC) for dynamic nonlinear processes is reviewed and discussed.





Intelligent Modeling, Diagnosis and Control of Manufacturing Processes

Author : Bei-Tseng Bill Chu

Publisher : World Scientific Publishing Company Incorporated

Page : 263 pages

File Size : 47,5 MB

Release : 1992

Category : Technology & Engineering

ISBN : 9789810208172

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Book Description

1. Manufacturing diagnosis and control: a task-specific approach / W.F. Punch III, A.K. Goel and J. Sticklen -- 2. The theory and application of diagnostic and control expert system based on plant model / J. Suzuki and M. Iwamasa -- 3. Integrated problem solving for the diagnosis of interacting process malfunctions / J.K. McDowell and J.F. Davis -- 4. A neural network model for diagnostic problem solving / Y. Peng and J.A. Reggia -- 5. Process control system for VLSI fabrication / E. Sachs [und weitere] -- 6. Development and application of equipment-specific process models for semiconductor manufacturing / K.-K. Lin and C. Spanos -- 7. Continuous equipment diagnosis using evidence integration - an LPCVD application / N.H. Chang, and C. Spanos -- 8. Equipment/instrument diagnosis with continuous and discrete causal relationships / B.-T.B. Chu -- 9. Intelligent control of semiconductor manufacturing processes / S.-S. Chen -- 10. A machine learning approach to diagnosis and control with applications in semiconductor manufacturing / K.B. Irani [und weitere]





University of Michigan Official Publication

Author : University of Michigan

Publisher : UM Libraries

Page : 176 pages

File Size : 38,99 MB

Release : 1998

Category : Education, Higher

ISBN :

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Book Description

Each number is the catalogue of a specific school or college of the University.



Cyber-Physical and Gentelligent Systems in Manufacturing and Life Cycle

Author : Berend Denkena

Publisher : Academic Press

Page : 494 pages

File Size : 47,60 MB

Release : 2017-06-07

Category : Technology & Engineering

ISBN : 0128126000

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Book Description

Cyber-Physical and Gentelligent Systems in Manufacturing and Life Cycle explores the latest technologies resulting from the integration of sensing components throughout the production supply chain, and the resulting possibilities to improve efficiency, flexibility, and product quality. The authors present cutting edge research into data storage in components, communication devices, data acquisition, as well as new industrial applications. Detailed technical descriptions of the tools are presented in addition to discussions of how these systems have been used, the benefits they provide, and what industry problems they could tackle in the future. This is essential reading for researchers and production engineers interested in the potential of cyber physical systems to optimize all parts of the supply chain. Addresses applications of cyber physical systems throughout the product lifecycle, including design, manufacture, and maintenance Features five industry case studies examining tools in different stages of the production chain Provides an invaluable recap of 12 years of advances in digitization of production processes and the implementation of intelligent systems Explores how these technologies could be used to solve problems in the future