Digital Twin of a Flexible Manufacturing System for Solutions Preparation

Coito, Tiago; Faria, Paulo E.; Martins, Miguel S.E.; Firme, Bernardo; Vieira, Susana M.; Figueiredo, João; Sousa, J.M.

doi:10.3390/automation3010008

Cited by 12 publications

(4 citation statements)

References 25 publications

(28 reference statements)

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“…As a rule, digital twins are considered in conjunction with simulation models, which are virtual analogues of physical assets [14]. Ref.…”

Section: Simulation Models For Dtsmentioning

confidence: 99%

Method for Defining Parameters of Electromechanical System Model as Part of Digital Twin of Rolling Mill

Gasiyarov,

Radionov,

Loginov

et al. 2023

JMMP

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Creating digital twins of industrial equipment requires the development of adequate virtual models, and the calculation of their parameters is a complex scientific and practical problem. To configure and digitally commission automated drives, two-mass electromechanical system models are used. A promising area in which to implement such models is the development of digital shadows, namely drive position observers. Connecting virtual models for online data exchange predetermines the tightening of requirements for their parameter calculation accuracy. Therefore, developing accessible techniques for calculating electromechanical system coordinates is an urgent problem. These parameters are most accurately defined by experiments. The contribution of this paper is the proposition of a method for defining the two-mass system model parameters using the oscillograms obtained in the operating and emergency modes. The method is developed for the horizontal stand drives of a plate mill 5000 and is supported by numerical examples. The technique is universal and comprises calculating the rotating mass inertia torques, elastic stiffness and oscillation damping coefficients, and the time constants of the motor air gap torque control loop. The obtained results have been applied to the development of the elastic torque observer of the rolling stand’s electromechanical system. A satisfactory coordinate recovery accuracy has been approved for both open and closed angular gaps in mechanical joints. Recommendations are given for the use of the method in developing process parameter control algorithms based on automated drive position observers. This contributes to the development of the theory and practice of building digital control systems and the implementation of the Industry 4.0 concept in industrial companies.

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“…As a rule, digital twins are considered in conjunction with simulation models, which are virtual analogues of physical assets [14]. Ref.…”

Section: Simulation Models For Dtsmentioning

confidence: 99%

Method for Defining Parameters of Electromechanical System Model as Part of Digital Twin of Rolling Mill

Gasiyarov,

Radionov,

Loginov

et al. 2023

JMMP

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“…Facilitates activities such as monitoring, coordination, and control of industrial systems in production lines. Its main function lies in the reduction of errors and production delivery time [12][13][14][15][16][17][18][19][20][21].…”

Section: Industrial Productionmentioning

confidence: 99%

Digital Twins in the Automotive Industry: The Road toward Physical-Digital Convergence

Piromalis

Kantaros

2022

ASI

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A newly introduced term in the field of simulating an artificial or physical system is that of the “Digital Twin” concept method. It employs a digital representation and modeling method, capable of expanding and improving the life cycle of complex items, systems, and processes. Nowadays, digital twin technology has become a key research field worldwide. In this context, it is applied and utilized in various fields. One such field is the automotive industry, a technological field that has great implications in users’ everyday life. Digital twin technology not only has great contributions from the initial stages of design until the final construction stages of vehicles, but also during its use, drawing useful information from its daily functions and making the driving experience more enjoyable, comfortable, and safe. It is worth noting that the vehicles that can greatly benefit from the use of digital twins are electric vehicles, which has tended to acquire greater shares in the last decade.

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“…Therefore, the FMS simulation model implemented with the aid of it can be used both to plan the processes implemented virtually in it and to correct previously planned and then physically implemented in FMS. Indeed, this approach to FMSs design and control is increasingly common and finds its applications in systems supporting preventive maintenance scheduling and proactive job-shop as well as dynamic scheduling in manufacturing (Coito et al, 2022;David, Lobov & Lanz, 2018;Hatono et al, 1989;Neto et al, 2021;Nielsen, Michna & Do, 2014;Nielsen, Sung & Nielsen, 2019;Patalas-Maliszewska & Kłos, 2019;Zhang, Bai & Yang, 2022;Stączek et al, 2021;Świć & Gola, 2013).…”

Section: Current-statementioning

confidence: 99%

Towards Digital Twin-Driven Performance Evaluation Methodology of FMS

Bocewicz

Wójcik

Sitek

et al. 2022

acs

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The paper presents a method of automated modelling and performance evaluation of concurrent production flows carried out in Flexible Manufacturing Systems. The method allows for quick assessment of various variants of such systems, considering their structure and the organization of production flow of possible ways of their implementation. Its essence is the conditions imposed on the designed model, limiting the space of possible variants of the production flow only to deadlock-free variants. The practical usefulness of the model implemented in the proposed method illustrates the example, which describes the simultaneous assessment of alternative variants of the flexible machining module's structure and the planned multi-assortment production. The ability of the method to focus on feasible solutions offers attractive perspectives for guiding the Digital Twin-like scenario in situations caused by the need to change the production flow.

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Digital Twin of a Flexible Manufacturing System for Solutions Preparation

Cited by 12 publications

References 25 publications

Method for Defining Parameters of Electromechanical System Model as Part of Digital Twin of Rolling Mill

Method for Defining Parameters of Electromechanical System Model as Part of Digital Twin of Rolling Mill

Digital Twins in the Automotive Industry: The Road toward Physical-Digital Convergence

Towards Digital Twin-Driven Performance Evaluation Methodology of FMS

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