Toekomstige professionals moeten complexe problemen kunnen oplossen. Hoeleren we dit hbo-studenten? Design thinking en ontwerpgericht onderzoek bieden beiden dezelfde logica voor het ontwerpen van onderbouwde oplossingenvoor complexe problemen. Ze verschillen in accent, met name in inhoudelijke uitgangspunten en de organisatie van het ontwerpproces. Zowel design thinkingals ontwerpgericht onderzoek zijn geschikt voor het oplossen van complexeproblemen, zeker als hun sterke punten in opeenvolgende ontwerpcycli wordengecombineerd.
The methodology of biomimicry design thinking is based on and builds upon the overarching patterns that all life abides by. “Cultivating cooperative relationships” within an ecosystem is one such pattern we as humans can learn from to nurture our own mutualistic and symbiotic relationships. While form and process translations from biology to design have proven accessible by students learning biomimicry, the realm of translating biological functions in a systematic approach has proven to be more difficult. This study examines how higher education students can approach the gap that many companies in transition are struggling with today; that of thinking within the closed loops of their own ecosystem, to do good without damaging the system itself. Design students should be able to assess and advise on product design choices within such systems after graduation. We know when tackling a design challenge, teams have difficulties sifting through the mass of information they encounter, and many obstacles are encountered by students and their professional clients when trying to implement systems thinking into their design process. While biomimicry offers guidelines and methodology, there is insufficient research on complex, systems-level problem solving that systems thinking biomimicry requires. This study looks at factors found in course exercises, through student surveys and interviews that helped (novice) professionals initiate systems thinking methods as part of their strategy. The steps found in this research show characteristics from student responses and matching educational steps which enabled them to develop their own approach to challenges in a systems thinking manner. Experiences from the 2022 cohort of the semester “Design with Nature” within the Industrial Design Engineering program at The Hague University of Applied Sciences in the Netherlands have shown that the mixing and matching of connected biological design strategies to understand integrating functions and relationships within a human system is a promising first step. Stevens LL, Whitehead C, Singhal A. Cultivating Cooperative Relationships: Identifying Learning Gaps When Teaching Students Systems Thinking Biomimicry. Biomimetics. 2022; 7(4):184. https://doi.org/10.3390/biomimetics7040184
Societal transitions require activities of multiple stakeholders on different systemic levels. Designers and design researchers are often involved in supporting specific interventions and sometimes in enabling and facilitating entire processes. Practices and literature in ‘co-creation ecosystems’ are a developing field for them to discuss differences and relatedness of micro-, meso- and macro perspectives. Using the case of a three-year multi-stakeholder co-creation project in the retail industry, the paper analyses processes and principles for making impact in design-led transition projects. A transition process with three phases is constructed and four principles for making impact at the various levels were found. Comparing findings with the UK Design Council’s ‘Systemic Design Framework’, the paper suggests process adaptations to scale between the local and the sector/national level. It also contributes to a better understanding of systemic design principles like Leadership, Storytelling and Systems Thinking. LinkedIn: https://www.linkedin.com/in/christine-de-lille-8039372/?originalSubdomain=nl https://www.linkedin.com/in/overdiek12345/
“Empowering learners to create a sustainable future” This is the mission of Centre of Expertise Mission-Zero at The Hague University of Applied Sciences (THUAS). The postdoc candidate will expand the existing knowledge on biomimicry, which she teaches and researches, as a strategy to fulfil the mission of Mission-Zero. We know when tackling a design challenge, teams have difficulties sifting through the mass of information they encounter. The candidate aims to recognize the value of systematic biomimicry, leading the way towards the ecosystems services we need tomorrow (Pedersen Zari, 2017). Globally, biomimicry demonstrates strategies contributing to solving global challenges such as Urban Heat Islands (UHI) and human interferences, rethinking how climate and circular challenges are approached. Examples like Eastgate building (Pearce, 2016) have demonstrated successes in the field. While biomimicry offers guidelines and methodology, there is insufficient research on complex problem solving that systems-thinking requires. Our research question: Which factors are needed to help (novice) professionals initiate systems-thinking methods as part of their strategy? A solution should enable them to approach challenges in a systems-thinking manner just like nature does, to regenerate and resume projects. Our focus lies with challenges in two industries with many unsustainable practices and where a sizeable impact is possible: the built environment (Circularity Gap, 2021) and fashion (Joung, 2014). Mission Zero has identified a high demand for Biomimicry in these industries. This critical approach: 1) studies existing biomimetic tools, testing and defining gaps; 2) identifies needs of educators and professionals during and after an inter-disciplinary minor at The Hague University; and, 3) translates findings into shareable best practices through publications of results. Findings will be implemented into tangible engaging tools for educational and professional settings. Knowledge will be inclusive and disseminated to large audiences by focusing on communication through social media and intervention conferences.
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.
In dit project zal een online onderwijsmodule worden ontworpen. In deze module zal een deel van de output van het project Bouwen met Levende Natuur worden verwerkt tot onderwijs. Het maken van online course materiaal binnen de HZ onderwijsonwikkeling, waar zowel echte casuistiek uit de de beroepspraktijk, als gebruik van ICT mogelijkheden centraal staan. Door de modulaire opbouw zal het mogelijk zijn onderdelen in verschillende courses te verwerken. De docent kan dan de module naar eigen wens, en onafhankelijk van de beschikbaarheid van interne of externe gastdocenten, inzetten voor ‘blended learning’. De benadering binnen de learning unit(s) volgt het constructivisme, activiteiten die te maken hebben met kennisoverdracht, zullen derhalve worden afgewisseld met verwerkingsopdrachten. De volledige onderwijsmodule richt zich vooral op onderwijs op het gebied van Coastal Engineering van de opleiding Civiele Techniek (CT), in eerste instantie van de Delta Academy; CT studenten blijken behoefte te hebben aan een uitleg van ecologische principes vanuit vanuit een meer technisch perspectief. De learning units/onderwijsmodule is uiteraard ook beschikbaar voor andere hbo opleidingen. Het geselecteerde gedeelte, de eerste learning unit, zal ook bruikbaar zijn voor de course Integrated Coastal Zone Management (ICZM), waarin oa het concept Building with Nature wordt uitgelegd. In de huidige vorm wordt dit onderdeel op de klassieke manier gebracht, in de vorm van een hoorcollege. De ontwikkeling van online materiaal maakt de afwisseling met het verwerken van de aangebrachte kennis eenvoudiger; de structuur daarvoor wordt in de online versie al aangebracht. Deze learning unit brengt niet alleen wat aanvullende benaderingen vanuit technisch perspectief, maar is ook een aanpassing, die het geheel hestructureert volgens het constructivisme. De course ICZM is een keuze-course, bedoeld voor Aquatische Ecotechnologie (AET), Delta Management (DM) en CT studenten; waar CT studenten meer behoefte hebben aan een technisch perspectief, heeft deze course ook te maken met DM studenten, die juist wat meer kennis zouden moeten maken met meer technische benaderingen.
