You are viewing an old version of this page. View the current version.

Compare with Current View Page History

« Previous Version 29 Next »

For a sample of general projects including student work at various levels, see the child-page "Stories and Context".

We start these pages in collaboration with colleagues at the KPI in Kyiv, through the HK-dir supported collaboration project on "Industry 4.0 Education". We hope to continue to update content and share knowledge with even more colleagues at the KPI soon- and in the future. Not just at the KPI or at NTNU of course!

Below we present a few local examples of learning factories at NTNU Gjøvik, Raufoss and related labs/projects in Norway and elswhere.

Cyber-Physical Learning Factory at NTNU Gjøvik,  S-Lab:

CP Factory at NTNU Gjøvik,  S-Lab

A part of Manulab Infrastructure: 

https://www.ntnu.edu/ivb/manulab


In the S-Lab including lab, workareas and 

  • CT X-ray machine station-Metrotom
  • CMM Duramax

https://ntnu.h5p.com/content/1291088311820962517

Virtual visit via H5P web content (360 degree images)


Links to course content,  study programs and projects to be shared (....later....)


General starting point for CP Factory use:  

Workplan: Simulation for building a phone/case including PCB and fuses. 


Keywords: Variants and automation.


CP Factory by Festo Didactic


Link to Learning Factory simulation including workplan and videos:

https://ntnu.h5p.com/content/1291079046320861077


Workplan for building a phone case with a PCB and fuses

What kind of problems can you think of- that can be simulated?

“Learning Factories” definitions below according to Encyclopedia CIRP, see Abele, E. (2016).
Learning Factory. CIRP Encyclopedia of Production Engineering.


“A Learning Factory in a narrow sense is a learning environment specified by:


• processes that are authentic, include multiple stations, and comprise technical
as well as organizational aspects,

• a setting that is changeable and resembles a real value chain,

• a physical product being manufactured, and

• a didactical concept that comprises formal, informal and non-formal learning,
enabled by own actions of the trainees in an on-site learning approach.

Depending on the purpose of the Learning Factory, learning takes place through
teaching, training and/or research. Consequently, learning outcomes may be
competency development and/or innovation. An operating model ensuring the
sustained operation of the Learning Factory is desirable.
In a broader sense, learning environments meeting the definition above but with

• a setting that resembles a virtual instead of a physical value chain, or

• a service product instead of a physical product, or

• a didactical concept based on remote learning instead of on-site learning


can also be considered as Learning Factories.”

Abele, E. (2016)


The recent textbook by Abele et al. (Springer) is available through the link below, and e.g. the NTNU library - also pdf-version/eBook

https://link.springer.com/book/10.1007/978-3-319-92261-4


The book presents the background, pedagogy/didactic-approach and a large number of examples- mostly in Germany, though there are variants many places, and a few other names are used....

About this book


This book presents the state of the art of learning factories. It outlines the motivations, historic background, and the didactic foundations of learning factories. Definitions of the term learning factory and a corresponding morphological model are provided as well as a detailed overview of existing learning factory approaches in industry and academia, showing the broad range of different applications and varying contents. Learning factory best-practice examples are presented in detailed and structured manner. The state of the art of learning factories curricula design and their use to enhance learning and research as well as potentials and limitations are presented. Further research priorities and innovative learning factory concepts to overcome current barriers are offered. While today numerous learning factories have been built in industry (big automotive companies, pharma companies, etc.) and academia in the last decades, a comprehensive handbook for the scientific community and practitioners alike is still missing. The book addresses therefore both researchers in production-related areas, that want to conduct industry-relevant research and education, as well as managers and engineers in industry, who are searching for an effective way to train their employees. In addition to this, the learning factory concept is also regarded as an innovative learning concept in the field of didactics.

See the link above for a book description, including table of contents. The first few chapters are a good start and intro:

Frameworks for doing research and development - future intelligent manufacturing

A few good examples of relevant research on "Industry 4.0" - suitable for testing and implementation in a learning factory setting are shared below. Student projects and industry or work done by senior academics may find common ground to bring greater shared value- in context, for all interested stakeholders. The paper/project by Jan Riemann at Fraunhofer and Gabor Sziebig linked below at SINTEF was performed - and published - in 2019 with support from the SFI Manufacturing collaboration in Norway 

The Intelligent Factory Space: A Concept for Observing, Learning and Communicating in the Digitalized Factory

https://ieeexplore.ieee.org/document/8723365

Digital Object Identifier 10.1109/ACCESS.2019.2919340

JAN REIMANN(1) AND GABOR SZIEBIG(2), (Senior Member, IEEE)
(1)Department Digitalisation in Production, Fraunhofer Institute for Machine Tools and Forming Technology IWU, 09126 Chemnitz, Germany
(2)Department of Production Technology, SINTEF Manufacturing, 7031 Trondheim, Norway

Master thesis work based on a joint student-project- as background for the Learning Factory at NTNU Gjøvik.

Anna Vaari's Thesis from 2020 on Enterprise Modeling with the title:

Industry 4.0 and Mixed Reality – Enterprise Modelling for a Learning Factory

https://ntnuopen.ntnu.no/ntnu-xmlui/handle/11250/2782259

Anna's master’s thesis investigates the use of mixed reality in the context of industry 4.0. Within this work, the relationships between industry 4.0, mixed reality and enterprise architecture in inspected from a theoretical point of view... (see link for full abstract and open publication).

As noted on the other related page on this wiki (link), it's usually best to work with your supervisor to find the right focus and scope of a project suitable for a master thesis. Examples are many- below, an academic, yet practical project in 2016 resulted in 2 related thesis works, with the following references/citations in NTNU Open:

Development of educational activity based on the learning factory in order to enhance learning experience 

Ogorodnyk, Olga (Master thesis, 2016-09-29)

Purpose: The following thesis describes development of educational activity in order to enhance students’ practical and theoretical knowledge on topics of kaizen, waste types, efficiency, push/pull production systems, in ...

Norway's First Learning Factory - A Learning Outcome Case Study 

Granheim, Malin Victoria (Master thesis, 2016-09-29)

the appropriate theories to classify the needed educational processes was found, and embedded into the learning factory design. Further, with the collaboration with co-student Olga Ogorodnyk, the students got to improve the line in means of theories (kaizen...
, Olga Ogorodnyk. Studentene ble videre intervjuet av den hensikt å få dem til å reflektere på prosessen og dermed finne læringsutbyttene de hadde. Funn: i løpet av forskningen ble det funnet at måten å bygge læringsfabrikken på gav de tiltenkte...


Vocational training through NCE Manufacturing and MTNC, Raufoss, Norway

Links (in Norwegian):

https://ncemanufacturing.no/laeringsfabrikken

https://mtnc.no/minifabrikk-laeringsfabrikken/


Video (KPI-NTNU project visit 2021):

Link to shared video (HK-dir supported project)


DigiFab project network in Norway, including video presentation of roadmap-paper:

<link to be added- see e.g. NTNU Oria>

https://q3p.no/digifab-strategic-roadmapping-towards-industry-4-0/

Most of the strategic tools, including active research projects take too much time and effort for small or medium-sized enterprises (SMEs), but quite a few networks and tools target this challenge, such as EU research and networking support and the well known German Acatech work, report and maturity index report with significant contributions from industry stakeholder PTC.  

https://www.acatech.de/publikation/industrie-4-0-maturity-index-update-2020/

(The 2 reports below in English are available in separate links)

Industrie 4.0 Maturity Index. Managing the Digital Transformation of Companies – UPDATE 2020

Published: 22 April 2020

Using the Industrie 4.0 Maturity Index in Industry. Current challenges, case studies and trends

Published: 22 April 2020



Though the Acatech-report, in particular the update above, is one of the best places to start thinking about Industry 4.0- and concrete implementation/learning, it very much depends on your point of view-and maturity in your network. What is useful to you, now? And later?

The DigiFab project network in Norway, link to video, left, is a perhaps a better local example. Providing a useful road-map tool and video-intro/tutorial for small and medium sized enterprises:

https://q3p.no/digifab-strategic-roadmapping-towards-industry-4-0/

  • No labels