Therefore, this paper presents an application of the concept of quality 4.0 in advanced manufacturing systems.Įxtensive digitization and interconnection through networks have ushered in a number of new paradigms over the last years: Internet of Things, cyber–physical systems, Industry 4.0, etc.
#Reference guide polyworks workspace manager software
The quality control process is performed by implementing a 3D scanner, the Faro 3D imager Cobalt, and software named PolyWorks-InspectorTM installed on a host computer to which the scanner is also connected. In this paper, a use case regarding quality control and assurance in the production platform 4.0 is described to present how a QC system could be integrated into a manufacturing system and compatible with the industry 4.0 principles. Quality control is an important phase of the manufacturing process, and fully integrating it into a production line is a significant challenge for intelligent and autonomous execution. However, these systems still suffer from some incompatibilities with production systems 4.0, especially in terms of interoperability and information exchange, which are the guiding design principles for industrialization 4.0 initiatives. Quality control systems have progressed technologically in recent years, especially through laser or optical measurements. Manufacturing industries will no longer take quality management tests in a separate metrology segment but instead on the manufacturing line in real-time. The visible development in the Internet of Things (IoT) and Wireless Sensor Networks (WSN) has made INDUSTRY 4.0 significantly affect the manufacturing industry in all aspects, including logistics to quality control.
Industry 4.0 has transformed manufacturing systems by introducing new functionalities that improve manufacturing processes' operational efficiency and allow mass customization under intelligent software control.
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