Your search keyword '"Knezev, A."' showing total 4 results

1. Thermal Behavior Modeling Based on BP Neural Network in Keras Framework for Motorized Machine Tool Spindles

Author

Aleksandar Kosarac, Robert Cep, Miroslav Trochta, Milos Knezev, Aleksandar Zivkovic, Cvijetin Mladjenovic, and Aco Antic

Subjects

high-speed motorized spindle, thermal behavior, deep learning, neural network, small dataset, Keras, Technology, Electrical engineering. Electronics. Nuclear engineering, TK1-9971, Engineering (General). Civil engineering (General), TA1-2040, Microscopy, QH201-278.5, Descriptive and experimental mechanics, QC120-168.85

Abstract

This paper presents the development and evaluation of neural network models using a small input–output dataset to predict the thermal behavior of a high-speed motorized spindles. Different neural multi-output regression models were developed and evaluated using Keras, one of the most popular deep learning frameworks at the moment. ANN was developed and evaluated considering the following: the influence of the topology (number of hidden layers and neurons within), the learning parameter, and validation techniques. The neural network was simulated using a dataset that was completely unknown to the network. The ANN model was used for analyzing the effect of working conditions on the thermal behavior of the motorized grinder spindle. The prediction accuracy of the ANN model for the spindle thermal behavior ranged from 95% to 98%. The results show that the ANN model with small datasets can accurately predict the temperature of the spindle under different working conditions. In addition, the analysis showed a very strong effect of type coolant on spindle unit temperature, particularly for intensive cooling with water.

Published

2022

2. Neural-Network-Based Approaches for Optimization of Machining Parameters Using Small Dataset

Author

Aleksandar Kosarac, Cvijetin Mladjenovic, Milan Zeljkovic, Slobodan Tabakovic, and Milos Knezev

Subjects

artificial neural networks, surface roughness, design of experiment, small dataset, Technology, Electrical engineering. Electronics. Nuclear engineering, TK1-9971, Engineering (General). Civil engineering (General), TA1-2040, Microscopy, QH201-278.5, Descriptive and experimental mechanics, QC120-168.85

Abstract

Surface quality is one of the most important indicators of the quality of machined parts. The analytical method of defining the arithmetic mean roughness is not applied in practice due to its complexity and empirical models are applied only for certain values of machining parameters. This paper presents the design and development of artificial neural networks (ANNs) for the prediction of the arithmetic mean roughness, which is one of the most common surface roughness parameters. The dataset used for ANN development were obtained experimentally by machining AA7075 aluminum alloy under various machining conditions. With four factors, each having three levels, the full factorial design considers a total of 81 experiments that have to be carried out. Using input factor-level settings and adopting the Taguchi method, the experiments were reduced from 81 runs to 27 runs through an orthogonal design. In this study we aimed to check how reliable the results of artificial neural networks were when obtained based on a small input-output dataset, as in the case of applying the Taguchi methodology of planning a four-factor and three-level experiment, in which 27 trials were conducted. Furthermore, this paper considers the optimization of machining parameters for minimizing surface roughness in machining AA7075 aluminum alloy. The results show that ANNs can be successfully trained with small data and used to predict the arithmetic mean roughness. The best results were achieved by backpropagation multilayer feedforward neural networks using the BR algorithm for training.

Published

2022

3. Thermal Behavior Modeling Based on BP Neural Network in Keras Framework for Motorized Machine Tool Spindles

Author

Kosarac, Aleksandar, primary, Cep, Robert, additional, Trochta, Miroslav, additional, Knezev, Milos, additional, Zivkovic, Aleksandar, additional, Mladjenovic, Cvijetin, additional, and Antic, Aco, additional

Published

2022

4. Neural-Network-Based Approaches for Optimization of Machining Parameters Using Small Dataset

Author

Kosarac, Aleksandar, primary, Mladjenovic, Cvijetin, additional, Zeljkovic, Milan, additional, Tabakovic, Slobodan, additional, and Knezev, Milos, additional

Published

2022