These are hard days for companies: they have to survive in a market that has been hit by a financial crisis. Many countries in Europe have severe problems trying to overcome this financial crisis. The main remedy applied by governments is to cut back on expenditure, but on the other hand it is said that it is important for a country, and especially for companies, to invest in innovation. These innovations should lead to innovative products that will lead to profitability turnovers for these companies and, as a consequence, improve the economic conditions in a country. Universities provide students with engineering competences, like develop innovation, with which they can show a higher degree of ability to answer complex questions such as how to become players in the market again. Teaching students to become more innovative engineers, Fontys University of Applied Sciences, Department of Engineering, has designed a curriculum in which students are educated in the competence innovation. An important element in the process of teaching innovation to students is the approach of inquiring into possibilities of patents. In the second semester of the first year, students can decide to join an innovative project called: ‘The invention project’. The basis of this project is that students are given the opportunity to create their own invention and with their previously acquired knowledge and skills they design, calculate, prototype and present their invention. In a research project, the experiences of students in this Invention Project have been analysed. The goal of this study was to understand what the success factors are for such a project. The basis of this inquiry is a questionnaire to identify the opinions of students. The research was carried out in the spring semester of 2012. In total 31 students were involved in this research. The results show that there was a high degree of student satisfaction about the Invention Project focused on innovation development. Success factors for this project in the first year of the curriculum were seen: 1 to work on own inventions, 2 development of student’s perception of the total product creation process and 3 to make students see the relevance of contacts with real professionals from industry and from the patent office in their own project. Improvements can be made by: 1 helping students more during the creativity stage in the project and 2 to coach them more on the aspect of engineering a successful invention of which they can be proud. This Invention project is a interesting with which collaborations with other universities can be set up.
Nowadays companies need higher educated engineers to develop their competences to enable them to innovate. This innovation competence is seen as a remedy for the minor profitable business they do during the financial crises. Innovation is an element to be developed on the one hand for big companies as well as for small-and-medium sized companies through Europe to overcome this crisis. The higher education can be seen as an institution where youngsters, coming from secondary schools, who choose to learn at higher education to realize their dream, what they like to become in the professional world. The tasks of the Universities of applied Sciences are to prepare these youngsters to become starting engineers doing their job well in the companies. Companies work for a market, trying to manufacture products which customers are willing to pay for. They ask competent employees helping achieving this goal. It is important these companies inform the Universities of applied Sciences in order to modify their educational program in such a way that the graduated engineers are learning the latest knowledge and techniques, which they need to know doing their job well. The Universities of applied Sciences of Oulu (Finland) and Fontys Eindhoven (The Netherlands) are working together to experience possibilities to qualify their students on innovation development in an international setting. In the socalled: ‘Invention Project’, students are motivated to find their own invention, to design it, to prepare this idea for prototyping and to really manufacture it. Organizing the project, special attention is given to communication protocol between students and also between teachers. Students have meetings on Thursday every week through Internet connection with the communication program OPTIMA, which is provided by the Oulu University. Not only the time difference between Finland and the Netherlands is an issue to be organized also effective protocols how to provide each other relevant information and also how to make in an effective way decisions are issues. In the paper the writers will present opinions of students, teachers and also companies in both regions of Oulu and Eindhoven on the effectiveness of this project reaching the goal students get more experienced to set up innovative projects in an international setting. The writers think this is an important and needed competence for nowadays young engineers to be able to create lucrative inventions for companies where they are going to work for. In the paper the writers also present the experiences of the supervising conditions during the project. The information found will lead to successfactors and do’s and don’ts for future projects with international collaboration.
Nowadays companies need higher educated engineers to develop their competences to enable them to innovate. This innovation competence is seen as a remedy for the minor profitable business they do during the financial crises. Innovation is an element to be developed on the one hand for big companies as well as for small-and-medium sized companies through Europe to overcome this crisis. The higher education can be seen as an institution where youngsters, coming from secondary schools, who choose to learn at higher education to realize their dream, what they like to become in the professional world. The tasks of the Universities of applied Sciences are to prepare these youngsters to become starting engineers doing their job well in the companies. Companies work for a market, trying to manufacture products which customers are willing to pay for. They ask competent employees helping achieving this goal. It is important these companies inform the Universities of applied Sciences in order to modify their educational program in such a way that the graduated engineers are learning the latest knowledge and techniques, which they need to know doing their job well. The Universities of applied Sciences of Oulu (Finland) and Fontys Eindhoven (The Netherlands) are working together to experience possibilities to qualify their students on innovation development in an international setting. In the so-called: ‘Invention Project’, students are motivated to find their own invention, to design it, to prepare this idea for prototyping and to really manufacture it. Organizing the project, special attention is given to communication protocol between students and also between teachers. Students have meetings on Thursday every week through Internet connection with the communication program OPTIMA, which is provided by the Oulu University. Not only the time difference between Finland and the Netherlands is an issue to be organized also effective protocols how to provide each other relevant information and also how to make in an effective way decisions are issues. In the paper the writers will present opinions of students, teachers and also companies in both regions of Oulu and Eindhoven on the effectiveness of this project reaching the goal students get more experienced to set up innovative projects in an international setting. The writers think this is an important and needed competence for nowadays young engineers to be able to create lucrative inventions for companies where they are going to work for. In the paper the writers also present the experiences of the supervising conditions during the project. The information found will lead to success-factors and do’s and don’ts for future projects with international collaboration.
Vanwege veranderende onderwijskundige inzichten - 21st century learning - worden schoolgebouwen verbouwd of vervangen door nieuwbouw. Deze 21st century leeromgevingen blijken in de praktijk niet te voldoen aan de verwachting van de gebruikers. Het ontwikkelen en gebruiken van een 21st century leeromgeving stelt blijkbaar specifieke eisen aan de 21st century competenties van alle betrokkenen. Dit roept vragen op ten aanzien van product en proces. De beantwoording van deze vragen vereist kennis van wisselwerking tussen psycho-sociale leeromgeving en fysieke leeromgeving. Het betreft onder andere de benodigde “ruimtelijke competenties” van de betrokkenen om de fysieke leeromgevingen te ontwikkelen en te gebruiken en - andersom - hoe de fysieke leeromgeving de ontwikkeling van 21st century competenties beïnvloedt. De kiem voor dit onderzoeksproject is gelegd toen scholen en vormgevers deze vragen voorlegden aan experts van de NHL Hogeschool en TU Eindhoven. Dit KIEM project wil de probleemstelling in één of meerdere praktijkvragen articuleren door het uitvoeren van een reeks workshops met een focusgroep van stakeholders. De uitkomsten hiervan zullen worden vertaald naar een voorstel voor een langduriger onderzoeksproject. In dit beoogde vervolgproject zullen de gearticuleerde vragen worden vertaald naar één of meer praktijkonderzoeken waarin wetenschappelijke kennis en methodes worden doorontwikkeld en beproefd op het effectief stimuleren van 21st century vaardigheden van docenten en vormgevers in praktijksituaties. Dit project maakt deel uit van de opbouw van een regionaal kennisnetwerk Onderwijs & Ruimte, wat op een duurzame wijze wil bijdragen aan de kennisontwikkeling en -deling betreffende de 21st century leeromgeving. De kern van dit netwerk wordt gevormd door de initiatiefnemers van deze aanvraag; Adema Architecten (MKB), lectoraat Open Innovation van de NHL Hogeschool (Onderzoeksinstelling) en Next Level (Onderwijs).
Currently, many novel innovative materials and manufacturing methods are developed in order to help businesses for improving their performance, developing new products, and also implement more sustainability into their current processes. For this purpose, additive manufacturing (AM) technology has been very successful in the fabrication of complex shape products, that cannot be manufactured by conventional approaches, and also using novel high-performance materials with more sustainable aspects. The application of bioplastics and biopolymers is growing fast in the 3D printing industry. Since they are good alternatives to petrochemical products that have negative impacts on environments, therefore, many research studies have been exploring and developing new biopolymers and 3D printing techniques for the fabrication of fully biobased products. In particular, 3D printing of smart biopolymers has attracted much attention due to the specific functionalities of the fabricated products. They have a unique ability to recover their original shape from a significant plastic deformation when a particular stimulus, like temperature, is applied. Therefore, the application of smart biopolymers in the 3D printing process gives an additional dimension (time) to this technology, called four-dimensional (4D) printing, and it highlights the promise for further development of 4D printing in the design and fabrication of smart structures and products. This performance in combination with specific complex designs, such as sandwich structures, allows the production of for example impact-resistant, stress-absorber panels, lightweight products for sporting goods, automotive, or many other applications. In this study, an experimental approach will be applied to fabricate a suitable biopolymer with a shape memory behavior and also investigate the impact of design and operational parameters on the functionality of 4D printed sandwich structures, especially, stress absorption rate and shape recovery behavior.
Door producten en diensten inclusief te ontwerpen kunnen ontwerpers een belangrijke bijdrage leveren aan een inclusievere samenleving, waarin iedereen op eigen wijze kan participeren. In AID gaan negen mkb-ontwerpbureaus Afdeling Buitengewone Zaken (A/BZ), theRevolution, Design Innovation Group, Greenberry, Ideate, Keen Public, Muzus, Netrex Internet Solutions (Leer Zelf Online) en Vrienden van verandering) die rijke maar uiteenlopende ervaring hebben met inclusief ontwerpen op zoek naar antwoorden op de vraag hoe hun vermogen voor inclusief ontwerpen kan worden versterkt. Ze doen dit middels actie-onderzoek in hun eigen beroepspraktijk en door hun ervaringen te delen met onderzoekers, docenten en co-ontwerpers in een ‘learning community’.
