Automaatiokoulutuksen sertifiointi

Automation in Network (Aune) hankkeessa SeAMKin koordinoimana toteutettiin 14 ammattikorkeakoulun yhteinen hanke, jonka tarkoituksena on uudistaa ja tehostaa automaatiotekniikan opetusta ja opiskelua ammattikorkeakouluissa. /1/ Hankkeen luonnollisena jatkona on tuotetun koulutusaineiston pohjalta kehitetyn yhteisen koulutusmallin kehittäminen. Keskeistä nyt esitetyssä mallissa on yritysten tarpeista nouseva sertifioitu koulutus, jota voidaan tarjota osana jatkuvan oppimisen koulutustarjontaa. Koulutuksen toteutuksessa korostuu korona-ajan monimuotoinen koulutus eli etäopetus, virtualisoidut ohjelmistot sekä etäkäytettävät laboratoriolaitteistot. Hanketta kehittävät yhteistyössä Oulun AMK, Tampereen AMK, Ylivieskan Centria AMK sekä Seinäjoen AMK

Fast Wow Effects Boosting SME Business : Final Report

The project Fast Wow Effects Boosting SME Business was carried out in collaboration with Centria and Turku Universities of Applied Sciences. The other partners in the project included about 20 Finnish companies, Ochanomizu University from Tokyo Japan and Arabic partner from Oman and Dubai. The ultimate goal in this project was to focus on digital transformation of value creation. Digitalization can offer new possibilities to synergic combination of different fields,such as game programming, art and new technology. The project was carrying out fast experimentations in versatile applications to study how synergic digital wow effects can be utilized e.g. in product presentations, in marketing and in engineering applications. Virtual and augmented reality together with game programming played key role in many use cases. The idea was to give customers a pleasant surprise and exceed their expectations. Based on our experiences, virtual and game technologies provided effective tools for fast experimentation and co-creation with SMEs. Our collaborating SMEs found the case implementations very beneficial and some of them have already invested themselves in the latest technology, e.g. virtual technology. The extensive collaboration in the project increased the knowledge level and it will progress co-operation with universities and SMEs

JuliaFEM beam element implementation

Abstract This article describes implementations of beam elements to JuliaFEM. The theory is briefly introduced, and the usage of beam elements is introduced with a usage example that involves a natural frequency calculation of a formula race car frame. The calculation results were compared to results from a commercial program, and their consistency is excellent