Formal modelling of a sheet metal smart manufacturing system by using Petri nets and first-order predicate logic

Formal modelling of a sheet metal smart manufacturing system by using Petri nets and first-order predicate logic

This study introduces a developed method to a smart computer-aided design/manufacturing (CAD/CAM) system, where layout design, process planning, and comprehensive computerized numerical control (CNC) code generation can be implemented to satisfy laser cutting holes, tapping, irregular and complicate...

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Bibliographic Details
Published in:Journal of intelligent manufacturing Vol. 32; no. 4; pp. 1043 - 1063
Main Authors: Lu, Juan, Ou, Chengyi, Liao, Chen, Zhang, Zhenkun, Chen, Kai, Liao, Xiaoping
Format: Journal Article
Language:English
Published: New York Springer US 01-04-2021
Springer Nature B.V
Subjects:
Business and Management
CAD
CAD/CAM
Computer aided design
Control
Design
Design modifications
Design standards
Engraving
Laser beam cutting
Layouts
Machine tools
Machines
Machining
Machining centres
Manufacturing
Manufacturing industry
Mechatronics
Metal sheets
Metals
Numerical controls
Petri nets
Predicate logic
Process planning
Processes
Production
Robotics
Trajectory planning
High-level petri nets
Layout design
Smart CAD/CAM
Object-oriented programming
Process planning
First-order predicate logic
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Summary:This study introduces a developed method to a smart computer-aided design/manufacturing (CAD/CAM) system, where layout design, process planning, and comprehensive computerized numerical control (CNC) code generation can be implemented to satisfy laser cutting holes, tapping, irregular and complicated profile processing, engraving, and burr back-scraping. The smart CAD/CAM(SCAM) system is developed as a commercial software product or application and firstly applied to flexible sheet metal machining center (BGL 130R). In this study, a formal modeling method involving Petri nets and first-order predicate logic is proposed to develop the smart manufacturing system. High-level Petri nets are employed to achieve the formal application architecture design of data flow for various functions, and the first-order logic used to represent the process plan is defined and deduced according to the machining methods. The developed system possesses the following characteristics: (1) a sound and complete deductive system to implement various types of trajectory planning, automatic generation, and validation of the CNC code; (2) a convenient design input environment and readiness for re-design and modification by adding specific design functions and using standard design procedures on a widely used CAD/CAM package; (3) helpful for designers in sheet metal layout designing, layout interference detection, process planning validation, preprocess manufacturing operation of CNC code generation, and autodefinition of storable file names; and (4) formal and simple in human–computer interaction, automatic and intelligent in process operations, and satisfactory in terms of the requirements of the flexible sheet metal machining center (BGL 130R).
ISSN:0956-5515
1572-8145
DOI:10.1007/s10845-020-01602-0