Axiomatic Design Applied to the Development of a System for Monitoring and Teleoperation of a CNC Machine through the Internet

Abstract The new era of manufacturing, called industry 4.0, will require the intensive use of mechatronics products. In this context, there are Cyber- Physical Systems and Internet of Things (IoT). These are represented by platforms that are integrated through connectivity protocols that permit a wide sharing of information among different devices. The design of these applications requires a methodology that sets requirements by reducing the complexity inherent in the development of these systems. As such, the Axiomatic Design (AD) has the capacity to simplify this kind of design process. This work studies the application of Axiomatic Design to the planning of a system for monitoring and teleoperation through the Internet of a Romi-Galaxy 15M machine tool with CNC Fanuc 18i-Ta, using the open standards OPC-UA and MTConnect. As a result, the functional requirements (FR) were formulated and, consequently, the design parameters (DP), which are represented by classes in an object-oriented application.

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