Identifying the Smartness of a Mechatronic Coiler through the 'Systems Engineering'
نویسندگان
چکیده
Among the requirements of a mechatronic system those related to its smart functions are crucial for an effective design. Smartness is associated to the system capability of self–adapting when the operating conditions change and usually it resorts to the action of the control system. The occurrence of the ‘Systems Engineering’ greatly improved a suitable definition of the system smartness, by identifying functions, architecture and hierarchy of the control units applied to drive the system operation. This paper briefly summarizes how the requirements related to the smartness of an industrial mechatronic system could be defined. A laying head for coiling the steel rod at the end of the rolling mill was used as an example and properties of its active magnetic suspension were investigated through the typical tools of the Systems Engineering.
منابع مشابه
Qualitative and quantitative approaches to analyse reliability of a mechatronic system: a case
The main research intent of this paper is to introduce the use of fault tree analysis (FTA) and failure mode and effects analysis (FMEA) in conjunction to analyse the risk and reliability of a complex mechatronic system in both qualitative and quantitative manner. The major focus is on handling imprecise and vague information with the help of fuzzy synthesis of information. A complex mechatroni...
متن کاملContext-Aware Recommender Systems: A Review of the Structure Research
Recommender systems are a branch of retrieval systems and information matching, which through identifying the interests and requires of the user, help the users achieve the desired information or service through a massive selection of choices. In recent years, the recommender systems apply describing information in the terms of the user, such as location, time, and task, in order to produce re...
متن کاملDesign and Simulation of Self-Optimizing Mechatronic Systems with Fujaba and CAMeL
Self-Optimizing mechatronic systems which are able to react autonomously and flexibly to changing environments are one promising approach for the next generation of mechanical engineering systems. To render designing such systems possible, an approach is required which goes far beyond what is offered by today’s standard tools for mechatronic systems. In this paper, we outline how a smooth integ...
متن کاملM. Valasek Highly Efficient Models and Simulations - the Basis of Design of Mechatronic Systems
Mechatronics is the future of mechanical engineering if not of all engineering. Mechatronics is the synergetic combination of mechanical systems with electronics and intelligent computer control 1 . The present most mechatronic product is vehicles that clearly demostrate the combination of components, solutions and technologies from the intersecting circles of mechanical, electrical, control an...
متن کاملModel driven development with mechatronic UML
Today, mechanical engineering products can largely be classified as mechatronic systems, i.e. systems integrating electrical and mechanical components with software. Mechatronic systems are often employed in safety-critical areas, for instance in the automotive or railway domain. MECHATRONIC UML is a UML profile specifically tailored towards the modelling of mechatronic systems. It aims at brin...
متن کامل