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How to become innovative: measuring and improving innovative development

Innovative development is a program that is given at The Hague University of Applied Sciences. This program teaches students to become more innovative. This article will look into the current approach and measure the growth in innovativeness of the students over the years. This was measured with a survey, based on the Berkeley innovation index. The results from the survey were calculated and scored based on eight factors. The innovative development program was compared with another program called information security management. These programs are from the same faculty. The information security management program did not show significant growth over the years in innovation. The innovative development program had resulted in a significant growth in innovativeness over the years. Some of the factors could be improved to increase the effectiveness of the innovative development program. https://nl.linkedin.com/in/haniers

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How to become innovative: measuring and improving innovative development

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Action research as a qualitative research approach for understanding technology professional development in higher education

Over the last two decades, institutions for higher education such as universities and colleges have rapidly expanded and as a result have experienced profound changes in processes of research and organization. However, the rapid expansion and change has fuelled concerns about issues such as educators' technology professional development. Despite the educational value of emerging technologies in schools, the introduction has not yet enjoyed much success. Effective use of information and communication technologies requires a substantial change in pedagogical practice. Traditional training and learning approaches cannot cope with the rising demand on educators to make use of innovative technologies in their teaching. As a result, educational institutions as well as the public are more and more aware of the need for adequate technology professional development. The focus of this paper is to look at action research as a qualitative research methodology for studying technology professional development in HE in order to improve teaching and learning with ICTs at the tertiary level. The data discussed in this paper have been drawn from a cross institutional setting at Fontys University of Applied Sciences, The Netherlands. The data were collected and analysed according to a qualitative approach.

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Action research as a qualitative research approach for understanding technology professional development in higher education

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Het beste van beide werelden.

The Best of Both Worlds: Success factors of Turkish-Dutch innovative entrepreneurs In recent years, a number of countries, among them the Netherlands, attach great importance to stimulating the economic development in the country, by promoting entrepreneurship in general and within the ethnic and cultural entrepreneurial groups in particular. Innovation is generally the result of an interactive process involving synergy between the diverse backgrounds and characteristics. Based on a qualitative research, this article provides an overview of insights in the critical success factors of Turkish-Dutch innovative entrepreneurs in the Netherlands. The success factors of ethnic entrepreneurs are approached in this study from three different dimensions: individual factors, social factors, and environmental factors. The individual factors are presented as personality traits and personal motivations. The social factors are discussed from the perspective of social networks, socio-cultural and socio-economic characteristics. As for environmental factors, they are divided into regional characteristics as well as the availability of resources and the presence of opportunities. Turkish-Dutch entrepreneurs, also called “ethnic entrepreneurs”, appear proficient in linking different innovation opportunities to their own strengths. They are operating better in both worlds, and are successfully navigating between the two cultures. This article also formulates several suggestions for the Dutch government, business world and educational institutions to stimulate innovation. SAMENVATTING Het beste van beide werelden: Succesfactoren van Turks-Nederlandse innovatieve ondernemers De laatste jaren hechten vele landen, onder andere Nederland, er groot belang aan om de economische ontwikkelingen op een hoger niveau te tillen door ondernemerschap in het algemeen, en binnen de etnische en culturele groepen in het bijzonder, te stimuleren. Innovatie is een gevolg van een interactief proces waarbij synergie ontstaat tussen de diverse achtergronden en kenmerken. Gebaseerd op een kwalitatief onderzoek worden in dit artikel, aan de hand van drie verschillende dimensies, te weten individuele, sociale en omgevingsfactoren, de succesfactoren van Turks-Nederlandse innovatieve ondernemers inzichtelijk gemaakt. De Turks-Nederlandse ondernemers, ook wel “etnische ondernemers” genoemd, blijken bedreven te zijn in het koppelen van innovatiekansen aan hun eigen sterke punten. Ze komen beter tot hun recht in beide werelden, en navigeren op succesvolle wijze tussen de twee culturen door. Dit artikel formuleert een aantal aanbevelingen voor de Nederlandse overheid, het bedrijfsleven en de klanten.

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ACHALLENGEBASEDLEARNINGCOMMUNITYFORHYDROGEN DEVELOPMENT ANDAPPLICATION

TheUniversity of Twente, SaxionUniversityofAppliedSciences, ROCofTwente(vocationaleducation), centre of expertise TechYourFuture and the H2Hub Twente, in which various regional hydrogen interested corporations are involved, work together to shape a learning community (LC) for the development of innovative hydrogen technology. The cooperation between company employees, researchers and students provides a means to jointly work on solutions for real-life problems within the energy transition. This involves a cross-chain collaboration of technical programs, professorships and (field) experts, supported by human capital specialists. In the LC, a decentralized hydrogen production unit with storage of green hydrogen is designed and built. The main question for this research is: how can the design and construction process of an alkaline electrolyzer be arranged in a challenge based LC in which students, company employees (specialists) and researchers from the three educational institutions can learn, innovate, build-up knowledge and benefit? In this project the concept of a LC is developed and implemented in collaboration with companies and knowledge institutions at different levels. The concrete steps are described below: 1. Joint session between Human Resource and Development (HRD) specialists and engineers/researchers to explore the important factors for a LC. The results of this session will be incorporated into a blueprint for the LC by the human capital specialists. 2. The project is carried out according to the agreements of the blueprint. The blueprint is continuously updated based on the periodic reflections and observed points for improvement. 3. Impact interviews and periodic reflection review the proceeding of the LC in this engineering process. The first impact interview reveals that the concept of the LC is very beneficial for companies. It increases overall knowledge on hydrogen systems, promotes cooperation and connection with other companies and aids to their market proposition as well. Students get the opportunity to work in close contact with multiple company professionals and build up a network of their own. Also the cooperation with students from different disciplines broadens their view as a professional, something which is difficult to achieve in a mono-disciplinary project.

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ACHALLENGEBASEDLEARNINGCOMMUNITYFORHYDROGEN DEVELOPMENT ANDAPPLICATION

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Employability and innovative work behaviours in SMEs in a Euroregion

Purpose The purpose of this paper is to investigate possible differences in the degrees of employability, leader–member exchange (LMX) and innovative work behaviours in a comparison between Belgium and the Netherlands. Although neighbouring countries, disparate national cultures between the two are assumed to influence the amount of employability, LMX and innovative work behaviours among their respective working populations. Furthermore, this paper aims to validate a mediation model across the two countries to test whether employability (partially) mediates the relationship between LMX and innovative work behaviours. Design/methodology/approach Data from employees and their immediate supervisors working in small- and medium-sized enterprises (SMEs) in Belgium and the Netherlands supported the hypothesized model. Structural equation modelling was used to investigate the mediation model using a multisource approach. Findings The amount of employability and innovative work behaviours of employees appeared to differ significantly between Belgium and the Netherlands. Furthermore, the results suggested that for both countries a positive relationship with one’s immediate supervisor (LMX) is beneficial in the light of workers’ innovative work behaviours, through its impact on employability, which was found to be a full mediator in this relationship. Research limitations/implications Future studies using a longitudinal approach could give more insight into the model relationships. Moreover, the variation in systems, national contexts and managerial practices in the Euroregion calls for more cross-national comparative scholarly research. Practical implications SMEs often do not employ professionals to manage human resources, that is, supervisors themselves have to carry the responsibility to encourage employees to further develop themselves and to enhance their innovative work behaviours. This while the challenge of more cross-national cooperation encourages a boost for innovations in the Euroregion. Originality/value This study is the first cross-national validation of a mediation model wherein a competence-based measure of employability is incorporated as a possible mediator in the relationship between LMX and innovative work behaviours.

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Employability and innovative work behaviours in SMEs in a Euroregion

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Train inventive engineers for the future

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.

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Train inventive engineers for the future

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Innovative Work Behaviour of teachers in Higher Education : An extended view; A first exploration

Within health education, many innovations are introduced, but are often not successful or sustainable. It is generally acknowledged that the quality of an educational system mainly depends on the quality of the teachers. Innovations will only succeed if teachers experience a climate that stimulates innovation and if they possess a sufficient level of innovative work behaviour. The current concept of innovative work behaviour (IWB) consists of three different behavioural dimensions: Idea generation, promotion and realization. However, the concept lacks attention for idea sustainability, which is necessary to embed the innovation deeply in daily practice. The limited attention for improving and continuation of an implemented idea is an often-mentioned explanation for the lack of the long-term success of innovations. Aim: This study aims at the development and validation of an instrument for innovative work behaviour that also includes the dimension idea sustainability, which has been overlooked by other researchers. Method: A questionnaire is developed, based on the questionnaire of Messmann (2012). Additional items are added to measure the new dimension idea sustainability. This new dimension contains the following concepts: Improving and optimising the innovation, disseminating the innovation in depth in the system of the organization and disseminating on a larger scale, and finally visualization of the benefits for stakeholders. The questionnaire is send to 400 teachers of a University for applied sciences in the South of The Netherlands. Results: 179 questionnaires were completed. It can be concluded that the scales to measure innovative work behaviour are strongly interrelated. There are significant correlations between the original dimensions and the added dimensions. The results for individual characteristics indicated that age and tenure did not correlate with any of the scales. Work experience, gender and also the faculty to which teachers belong did make some difference with regard to IWB. The results for job characteristics showed that the number of working hours, job position and the participation in research groups did make a difference with regard to IWB. In general, job characteristics showed more links with the various scales to measure innovative work behavior compared to the individual characteristics.

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Innovative Work Behaviour of teachers in Higher Education : An extended view; A first exploration

People 6

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Qiqi Zhou

Senior Researcher & Lecturer R&D

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Joey Relouw

Lecturer

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Paul van de Coevering

Professor of Urban Intelligence

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Aikaterini Meliou

Lecturer-researcher

Projects 76

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“Beat the Clock, turn the lock!” Educational escape rooms to accelerate the energy transition

Energy transition is key to achieving a sustainable future. In this transition, an often neglected pillar is raising awareness and educating youth on the beneﬁts, complexities, and urgency of renewable energy supply and energy efﬁciency. The Master Energy for Society, and particularly the course “Society in Transition”, aims at providing a first overview on the urgency and complexities of the energy transition. However, educating on the energy transition brings challenges: it is a complex topic to understand for students, especially when they have diverse backgrounds. In the last years we have seen a growing interest in the use of gamification approaches in higher institutions. While most practices have been related to digital gaming approaches, there is a new trend: escape rooms. The intended output and proposed innovation is therefore the development and application of an escape room on energy transition to increase knowledge and raise motivation among our students by addressing both hard and soft skills in an innovative and original way. This project is interdisciplinary, multi-disciplinary and transdisciplinary due to the complexity of the topic; it consists of three different stages, including evaluation, and requires the involvement of students and colleagues from the master program. We are confident that this proposed innovation can lead to an improvement, based on relevant literature and previous experiences in other institutions, and has the potential to be successfully implemented in other higher education institutions in The Netherlands.

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A SAMSUNG VIRTUAL REALITY

Developing and testing several AR and VR concepts for SAMSUNG (Benelux) Samsung and Breda University of Applied Sciences decided to work together on developing and testing several new digital media concepts with a focus on VR and gaming. This collaboration has led to several innovative projects and concepts, among others: the organisation of the first Samsung VR jam in which game and media students developed new concepts for SAMSUNG GEAR in 24 hours, the pre-development of a VR therapy concept (Fear of Love) created by CaptainVR, the Samsung Industry Case in which students developed new concepts for SAMSUNG GEAR (wearables), the IGAD VR game pitch where over 15 VR game concepts were created for SAMSUNG VR GEAR and numerous projects in which VR concepts are developed and created using new SAMSUNG technologies. Currently we are co-developing new digital HRM solutions.

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Additive Manufacturing of smart biobased sandwich panels

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.

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Blackteria: Bacteria-derived melanin particles as a sustainable pigment in ultra-black coatings

Synthetic ultra-black (UB) materials, which demonstrate exceptionally high absorbance (>99%) of visible light incident on their surface, are currently used as coatings in photovoltaic cells and numerous other applications. Most commercially available UB coatings are based on an array of carbon nanotubes, which are produced at relatively high temperature and result in numerous by-products. In addition, UB nanotube coatings require harsh application conditions and are very susceptible to abrasion. As a result, these coatings are currently obtained using a manufacturing process with relatively high costs, high energy consumption and low sustainability. Interestingly, an UB coating based on a biologically derived pigment could provide a cheaper and more sustainable alternative. Specifically, GLO Biotics proposes to create UB pigment by taking a bio-mimetic approach and replicate structures found in UB deep-sea fish. A recent study[1] has actually shown that specific fish have melanosomes in their skin with particular dimensions that allow absorption of up to 99.9% of incident light. In addition to this, recent advances in bacterial engineering have demonstrated that it is possible to create bacteria-derived melanin particles with very similar dimensions to the melanosomes in aforementioned fish. During this project, the consortium partners will combine both scientific observations in an attempt to provide the proof-of-concept for developing an ultra-black coating using bacteria-derived melanin particles as bio-based, sustainable pigment. For this, Zuyd University of Applied Sciences (Zuyd) and Maastricht University (UM) collaborate with GLO Biotics in the development of the innovative ‘BLACKTERIA’ UB coating technology. The partners will attempt at engineering an E. coli expression system and adapt its growth in order to produce melanin particles of desired dimensions. In addition, UM will utilize their expertise in industrial coating research to provide input for experimental set-up and the development of a desired UB coating using the bacteria-derived melanin particles as pigment.

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Bottom up food system transformation: collective ownership and inclusive participation

The HAS professorship Future Food Systems is performing applied research with students and external partners to transform our food system towards a more sustainable state. In this research it is not only a question of what is needed to achieve this, but also how and with whom. The governance of our food system needs rethinking to get the transformative momentum going in a democratic and constructive manner. Building on the professorship’s research agenda and involvement in the transdisciplinary NWA research project, the postdoc will explore collective ownership and inclusive participation as two key governance concepts for food system transformation. This will be done in a participatory manner, by learning from and with innovative bottom-up initiatives and practitioners from the field. By doing so, the postdoc will gain valuable practical insights that can aid to new approaches and (policy) interventions which foster a sustainable and just food system in the Netherlands and beyond. A strong connection between research and education is created via the active research involvement of students from different study programs, supervised by the postdoc (Dr. B. van Helvoirt). The acquired knowledge is embedded in education by the postdoc by incorporating it into HAS study program curricula and courses. In addition, it will contribute to the further professional development of qualitative research skills among HAS students and staff. Through scientific, policy and popular publications, participation in (inter)national conferences and meetings with experts and practitioners, the exposure and network of the postdoc and HAS in the field of food systems and governance will be expanded. This will allow for the setting up of a continuous research effort on this topic within the professorship via follow-up research with knowledge institutes, civic society groups and partners from the professional field.

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How to become innovative: measuring and improving innovative development

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