Baas, M, Admiraal, W and van den Berg, E. 2019. Teachers’ Adoption of Open Educational Resources in Higher Education. Journal of Interactive Media in Education, 2019(1): 9, pp. 1–11. DOI: https://doi.org/10.5334/jime.510Open Educational Resources (OER) have the potential to change the domain of higher education; however, adoption is still limited. As teachers are the pivotal actors to adopt OER, more insights are needed on their practices with OER and need of support. This exploratory study uses the OER Adoption Pyramid as a framework to analyse adoption of OER within a Dutch University of Applied Sciences. A questionnaire (n = 143) and semi-structured interviews with teachers who had some experience with sharing or using OER (n = 11) offered insights into the current state of affairs on adoption and need of support. The results revealed that informal sharing of resources within teachers’ personal networks happens frequently whereas the use of OER is more limited. If teachers use OER, they are mainly used ‘as-is’ or for a source of inspiration. Our findings indicate that the OER Adoption Pyramid does not properly describe the sequence of each layer within the context of this study. Availability must be lower in the pyramid as a prerequisite for teachers to explore their capacity and volition. Hence, the findings underline the need of support on subject-specific overviews of OER and the creation of national or institutional teacher communities. To improve our understanding, future research should focus on qualitative studies focusing on one case in which teachers engage with OER. This could lead to extensive insights on the factors and sequence of the OER Adoption Pyramid within different contexts.
In today’s era of content abundance, lecturers in higher education have an endless supply of crossmedia materials they can present to students as learning materials. This confronts lecturers with the challenge to select those materials in such a way that they match both course topics and proficiency levels of students. Additionally, they need to consider how to structure resources and make connections between them in order to support students’ learning. It is often recognized that this task is remarkably similar to the task of curators in museums.This paper aims to provide an overview of research regarding ‘lecturers as curators’ in the context of higher education. Thirty articles that focus on curation of learning materials by lecturers were identified and analysed. Although most articles recognize the notion of curation as a useful approach, they fail to describe overarching processes or criteria for successful curation of learning materials.
Collaborative networks for sustainability are emerging rapidly to address urgent societal challenges. By bringing together organizations with different knowledge bases, resources and capabilities, collaborative networks enhance information exchange, knowledge sharing and learning opportunities to address these complex problems that cannot be solved by organizations individually. Nowhere is this more apparent than in the apparel sector, where examples of collaborative networks for sustainability are plenty, for example Sustainable Apparel Coalition, Zero Discharge Hazardous Chemicals, and the Fair Wear Foundation. Companies like C&A and H&M but also smaller players join these networks to take their social responsibility. Collaborative networks are unlike traditional forms of organizations; they are loosely structured collectives of different, often competing organizations, with dynamic membership and usually lack legal status. However, they do not emerge or organize on their own; they need network orchestrators who manage the network in terms of activities and participants. But network orchestrators face many challenges. They have to balance the interests of diverse companies and deal with tensions that often arise between them, like sharing their innovative knowledge. Orchestrators also have to “sell” the value of the network to potential new participants, who make decisions about which networks to join based on the benefits they expect to get from participating. Network orchestrators often do not know the best way to maintain engagement, commitment and enthusiasm or how to ensure knowledge and resource sharing, especially when competitors are involved. Furthermore, collaborative networks receive funding from grants or subsidies, creating financial uncertainty about its continuity. Raising financing from the private sector is difficult and network orchestrators compete more and more for resources. When networks dissolve or dysfunction (due to a lack of value creation and capture for participants, a lack of financing or a non-functioning business model), the collective value that has been created and accrued over time may be lost. This is problematic given that industrial transformations towards sustainability take many years and durable organizational forms are required to ensure ongoing support for this change. Network orchestration is a new profession. There are no guidelines, handbooks or good practices for how to perform this role, nor is there professional education or a professional association that represents network orchestrators. This is urgently needed as network orchestrators struggle with their role in governing networks so that they create and capture value for participants and ultimately ensure better network performance and survival. This project aims to foster the professionalization of the network orchestrator role by: (a) generating knowledge, developing and testing collaborative network governance models, facilitation tools and collaborative business modeling tools to enable network orchestrators to improve the performance of collaborative networks in terms of collective value creation (network level) and private value capture (network participant level) (b) organizing platform activities for network orchestrators to exchange ideas, best practices and learn from each other, thereby facilitating the formation of a professional identity, standards and community of network orchestrators.
The Netherlands is facing great challenges to achieve (inter)national climate mitigation objectives in limited time, budget and space. Drastic innovative measures such as floating solar parks are high on political agendas and are entering our water systems . The clear advantages of floating solar (multifunctional use of space) led to a fast deployment of renewable energy sources without extensive research to adequately evaluate the impacts on our environment. Acquisition of research data with holistic monitoring methods are urgently needed in order to prevent disinvestments. In this proposal ten SMEs with different expertise and technologies are joining efforts with researchers and four public parties (and 12 indirectly involved) to answer the research question “Which monitoring technologies and intelligent data interpretation techniques are required to be able to conduct comprehensive, efficient and cost-effective monitoring of the impacts of floating solar panels in their surroundings?" The outputs after a two-year project will play a significant and indispensable role in making Green Energy Resources Greener. Specific output includes a detailed inventory of existing projects, monitoring method for collection/analysis of datasets (parameters/footage on climate, water quality, ecology) on the effects of floating solar panels on the environment using heterogeneous unmanned robots, workshops with public & private partners and stakeholders, scientific and technical papers and update of national guidelines for optimizing the relationship between solar panels and the surrounding environment. Project results have a global interest and the consortium partners aim at upscaling for the international market. This project will enrich the involved partners with their practical knowledge, and SMEs will be equipped with the new technologies to be at the forefront and benefit from the increasing floating solar market opportunities. This project will also make a significant contribution to various educational curricula in universities of applied sciences.
Climate change and the depletion of resources in the world are widely recognized as the greatest societal challenges. The building sector is responsible for 40% of the raw material consumption globally. The emissions related to construction materials are anticipated to double by 2050, if no new technologies are adopted (EC, 2021). Based on the environmental cost indicator, isolation has the second largest (after concrete) impact to the environment. In Mythic - Myterials for THermal Insulation in Construction goal is to develop (in co-creation with the work field) the best available mycelium biocomposite, which can be used as a circular, biodegradable insulation material for construction in the building sector. In recent research projects partners concluded that Mycelium biocomposites have a high potential to replace traditional fossil-based isolation materials, but further research on the thermal insulation and moisture absorption is needed to convince the construction market. In the project various partners will cooperate, both from the production side of mycelium composites, as well as from the application side. Some partners originate from previous projects, but others contacted Centre of Expertise for the Biobased Economy (CoEBBE) to build further on the existing network. There are several SME’s from the Netherlands, but also from abroad (Nylausn from Iceland, Mogu Srl from Italy and Corstyrene form France), as well as Branche organizations and knowledge institutes. Avans works together with HZ in CoEBBE and for the microbiological knowledge we cooperate with the University of Utrecht. For the market research CoEBBE cooperates with the lectorate New Marketing within Avans, focussing on sustainability via biomimicry. Mycelium composites and natural products for the building industry is the theme that binds all partners.
