Nalaganje ...
Mednarodni projekti vir: SICRIS

Capitals of smart product development

Raziskovalci (1)
št. Evidenčna št. Ime in priimek Razisk. področje Vloga Obdobje Štev. publikacijŠtev. publikacij
1.  18836  dr. Marko Hočevar  Procesno strojništvo  Vodja  2017 - 2020  611 
Organizacije (1)
št. Evidenčna št. Razisk. organizacija Kraj Matična številka Štev. publikacijŠtev. publikacij
1.  0782  Univerza v Ljubljani, Fakulteta za strojništvo  Ljubljana  1627031  30.183 
Povzetek
Emerging complexity of modern design and engineering problems and their strong interaction with nature, environment, and society led to the situation where it is no longer sufficient for an engineering professional to be only competent in the narrow field of specific engineering, solving partial engineering problems assigned to him or her. The modern engineer has to understand the whole new product/service development process and foresee all aspects of product’s interaction with the environment (cultural, economic, ecological, social, psychological, etc.). Within the concept of Industry 4.0, the transition of mechatronic products towards smart products is key. Whereas the discussion about smart products in the context of digital production is more prominent, the shift towards the paradigm of smart products also suggests that the current way of product development needs to be adapted fundamentally. Like shown within representative studies, there is a consensus among industry experts on changing working processes and contents; new development methods, models and tools. Furthermore, many authors claim that these requirements will even lead to new job roles, comparable to the developments in the field of mechatronics in the 1990's. To our best knowledge, in all project countries, there is no curriculum, specialised on the smart product development, running on any education level and institution. The main goal of this project is thus to develop and accredit an innovative engineering master programme, which will teach students above mentioned trends in theory and practice of smart product development, which will foster development of their transversal skills, including working in multi-disciplinary, multi-national, and multi-cultural environments, helping them to gain real industrial and entrepreneurial experience and making contacts for their future professional careers. A special emphasis will be put on implementation of six design principles into the study programme (commonly recognised Industry 4.0 principles): Interoperability, virtualisation, decentralisation, real-time capability, service orientation, modularity. The integration will be twofold: The curriculum itself will follow these 6 principles, as well as demonstrate and teach students the use of the principles in their design engineering processes. The study programme will be acknowledged and ECTS awarded in all three Programme countries. The students will be able to enrol lessons at any of the three HEI partners and to migrate during their studies.
Zgodovina ogledov
Priljubljeno