Developing an innovative optical system for automatically monitoring the melting process in an aluminum melting furnace

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Bibliographic data

Copyright year: 2020
ISBN-Online: 978-3-95900-420-6
Publisher: TEWISS, Garbsen
Series: Berichte aus dem IPH
Volume: 02/2019
Language: German
Pages: 108
Product type: Book Titles

ChapterPages

1. Preface No access
2. Abstract No access
3. Contents No access
4. Symbols No access
1 Introduction No access
1. 2.1 Properties and uses of aluminum No access
2. 2.2 Process classification of aluminum die casting No access
3. 2.3 Types of aluminum melting furnaces used in die casting No access
4. 2.4 Development of the modern melting furnace No access
5. 2.5 Measurement methods for spatial shape detection No access
6. 2.6 3D light-field camera No access
7. 2.7 Statistical method for outlier detection No access
8. 2.8 Mathematical foundations of geometric modeling No access
3 Problem statement, research hypothesis, and objectives No access
1. 4.1 Melting furnace No access
2. 4.2 Selection of optical systems for monitoring melting process No access
3. 4.3 3D light-field camera No access
4. 4.4 3D light-field camera calibration No access
5. 4.5 Developing programmable logic controller (PLC′) interface for automatic image acquisition No access
1. 5.1 Developing analysis software for continuous real-time monitoring of aluminum state in furnace No access
1. 6.1 Different methods of approximation and interpolation No access
2. 6.2 Curve modeling and error calculation across aluminum surface with cubic spline interpolation No access
3. 6.3 Surface modeling of aluminum with cubic spline interpolation No access
4. 6.4 Curve modeling across aluminum surface with Newton polynomial interpolation No access
5. 6.5 Curve modeling across aluminum surface with least squares approximation No access
6. 6.6 Error calculation for Newton interpolation and least squares approximation No access
7. 6.7 Surface modeling of aluminum with least squares approximation No access
8. 6.8 Analyzing and assessing model No access
7 Conclusion and outlook No access
8 References No access
1. Appendix A No access
2. Appendix B No access