Mechanical Assembly Sequence Determination Using Artificial Neural Networks Based on Selected DFA Rating Factors

Marcin Suszyński; Katarzyna Peta; Vít Černohlávek; Martin Svoboda

doi:10.3390/sym14051013

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Title

Mechanical Assembly Sequence Determination Using Artificial Neural Networks Based on Selected DFA Rating Factors

Authors

Marcin Suszyński (WIM) ^{[ 1 ][ 2.9 ][ P ]}
Katarzyna Peta (WIM) ^{[ 1 ][ 2.9 ][ P ]}
Vít Černohlávek
Martin Svoboda

^{[ 1 ]} Instytut Technologii Mechanicznej, Wydział Inżynierii Mechanicznej, Politechnika Poznańska | ^{[ P ]} employee

Scientific discipline (Law 2.0)

[2.9] Mechanical engineering

Year of publication

2022

Published in

Symmetry

Journal year: 2022 | Journal volume: vol. 14 | Journal number: no. 5

Article type

scientific article

Publication language

english

Keywords

EN

design for assembly
artificial neural networks
assembly

Abstract

EN In this paper, an assembly sequence planning system, based on artificial neural networks, is developed. The problem of artificial neural network itself is largely related to symmetry at every stage of its creation. A new modeling scheme, known as artificial neural networks, takes into account selected DFA (Design for Assembly) rating factors, which allow the evaluation of assembly sequences, what are the input data to the network learning and then estimate the assembly time. The input to the assembly neural network procedure is the sequences for assembling the parts, extended by the assembly’s connection graph that represents the parts and relations between these parts. The operation of a neural network is to predict the assembly time based on the training dataset and indicate it as an output value. The network inputs are data based on selected DFA factors influencing the assembly time. The proposed neural network model outperforms the available assembly sequence planning model in predicting the optimum assembly time for the mechanical parts. In the neural networks, the BFGS (the Broyden–Fletcher–Goldfarb–Shanno algorithm), steepest descent and gradient scaling algorithms are used. The network efficiency was checked from a set of 20,000 test networks with randomly selected parameters: activation functions (linear, logistic, tanh, exponential and sine), the number of hidden neurons, percentage set of training and test dataset. The novelty of the article is therefore the use of parts of the DFA methodology and the neural network to estimate assembly time, under specific production conditions. This approach allows, according to the authors, to estimate which mechanical assembly sequence is the most advantageous, because the simulation results suggest that the neural predictor can be used as a predictor for an assembly sequence planning system.

Date of online publication

16.05.2022

Pages (from - to)

1013-1 - 1013-13

DOI

10.3390/sym14051013

URL

https://www.mdpi.com/2073-8994/14/5/1013

Comments

Article Number: 1013

License type

CC BY (attribution alone)