Por favor, use este identificador para citar o enlazar este ítem: http://hdl.handle.net/10259/8355
Título
Using Machine-Learning techniques and Virtual Reality to design cutting tools for energy optimization in milling operations
Autor
Publicado en
International Journal of Computer Integrated Manufacturing. 2022, V. 35, n. 9, p. 951-971
Editorial
Taylor & Francis
Fecha de publicación
2022-01
ISSN
0951-192X
DOI
10.1080/0951192X.2022.2027020
Abstract
The selection of a proper cutting tool in machining operations is a critical issue. Tool geometric parameters are essential for milling performance. However, the process engineer has very limited experience of the best parameter combination, due to the high cost of cutting tool tests. The same holds true for bachelor studies on machining processes. This study proposes a new strategy that combines experimental tests, machine-learning modelling and Virtual Reality visualization to overcome these limitations. First, tools with different geometric parameters are tested. Second, the experimental data are modeled with different machine-learning techniques (regression trees, multilayer perceptrons, bagging and random forest ensembles). An in-depth analysis of the influence of each input on model accuracy is performed to reduce experimental costs. The results show that the best model with no cutting-force inputs performed worse than the best model with all the inputs. Third, the most accurate model is used to build 3D graphs of special interest to engineering students as well as process engineers, for the optimization of power consumption under different cutting conditions. Finally, a Virtual Reality environment is presented to train engineering students in the study of the best tool design and cutting parameter optimization.
Palabras clave
Multiplayer perceptron
Virtual reality
Serrated cutters
Energy optimization
Ensembles
Materia
Informática
Computer science
Tecnología
Technology
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