This study identifies the capabilities needed by small-scale fishers to participate in Fishery Improvement Projects (FIPs) for yellowfin tuna in the Philippines. The current literature provides little empirical evidence on how different models, or types of FIPs, influence the participation of fishers in their programs and the degree which FIPs are able to foster improvements in fishing practices. To address this literature gap, two different FIPs are empirically analysed, each with different approaches for fostering improvement. The first is the non-governmental organisation-led Partnership Programme Towards Sustainable Tuna, which adopts a bottom-up or development oriented FIP model. The second is the private-led Artesmar FIP, which adopts a top-down or market-oriented FIP approach. The data were obtained from 350 fishers surveyed and were analysed using two separate models run in succession, taking into consideration full, partial, and non-participation in the two FIPs. The results demonstrate that different types of capabilities are required in order to participate in different FIP models. Individual firm capabilities are more important for fishers participation in market-oriented FIPs, which use direct economic incentives to encourage improvements in fisher practices. Collective capabilities are more important for fishers to participate in development-oriented FIPs, which drive improvement by supporting fishers, fisher associations, and governments to move towards market requirements.
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Increasingly, Design Thinking's influence reaches beyond the confines of traditional design disciplines and expands its role in connecting domains and integrating resources. This study focused on the changing role of design researchers involved in interdisciplinary research projects, following a Research-through-Design (RtD) approach. The research setting for this study was a project on the design and evaluation of digital solutions in the context of dementia. This study applied process research methods to provide a holistic view of the dynamics between actors from different domains as well as an understanding of the role of design researchers within the complexity of the larger system of an interdisciplinary RtD collaboration. Findings at the organizational, process, and product levels emphasized the following three changing roles for design researchers in interdisciplinary RtD: (1) a mediator role, (2) a sensemaking role, and (3) a role in improving processes by applying research artefacts.
Making design work in the field of dementia requires interdisciplinary research. However, obstacles are likely to occur when healthcare and creative researchers work together. Analyzing the startup phase of ten interdisciplinary projects in the field of dementia, overweight and loneliness we found seven strategies to overcome these barriers: use boundary brokers, combine theory, combine research approaches, organize for collaboration, joint activities, separate activities, and use artefacts. As many dementia research projects involve exploring new products and technologies, particularly the use of artefacts might be an interesting strategy to foster the collaboration of healthcare and creative research disciplines.
Horse riding falls under the “Sport for Life” disciplines, where a long-term equestrian development can provide a clear pathway of developmental stages to help individuals, inclusive of those with a disability, to pursue their goals in sport and physical activity, providing long-term health benefits. However, the biomechanical interaction between horse and (disabled) rider is not wholly understood, leaving challenges and opportunities for the horse riding sport. Therefore, the purpose of this KIEM project is to start an interdisciplinary collaboration between parties interested in integrating existing knowledge on horse and (disabled) rider interaction with any novel insights to be gained from analysing recently collected sensor data using the EquiMoves™ system. EquiMoves is based on the state-of-the-art inertial- and orientational-sensor system ProMove-mini from Inertia Technology B.V., a partner in this proposal. On the basis of analysing previously collected data, machine learning algorithms will be selected for implementation in existing or modified EquiMoves sensor hardware and software solutions. Target applications and follow-ups include: - Improving horse and (disabled) rider interaction for riders of all skill levels; - Objective evidence-based classification system for competitive grading of disabled riders in Para Dressage events; - Identifying biomechanical irregularities for detecting and/or preventing injuries of horses. Topic-wise, the project is connected to “Smart Technologies and Materials”, “High Tech Systems & Materials” and “Digital key technologies”. The core consortium of Saxion University of Applied Sciences, Rosmark Consultancy and Inertia Technology will receive feedback to project progress and outcomes from a panel of international experts (Utrecht University, Sport Horse Health Plan, University of Central Lancashire, Swedish University of Agricultural Sciences), combining a strong mix of expertise on horse and rider biomechanics, veterinary medicine, sensor hardware, data analysis and AI/machine learning algorithm development and implementation, all together presenting a solid collaborative base for derived RAAK-mkb, -publiek and/or -PRO follow-up projects.
Wat dragen creatieve onderzoeksmethodes bij aan vernieuwing binnen de zorg? We onderzoeken dit binnen tien projecten van het Create Health-programma van ZonMw. In deze projecten wordt kennis ontwikkeld over de toegevoegde waarde van creatieve manieren van werken bij e-health innovatie. Informatie over de onderzoeksresultaten is te vinden op de website: husite.nl/creatieve-onderzoeksmethodes en het artikel: CHIWaWA maakt samenwerking in create-health onderzoek inzichtelijk | Hogeschool Utrecht (hu.nl)Doel Het Create Health programma heeft tot doel om bij te dragen aan maatschappelijke uitdagingen rondom gezond en actief ouder worden. CHIWaWA werkt daarbij toe naar een conceptueel model dat manieren van werken in kaart brengt in create health projecten – gekoppeld aan theorie over boundary crossing en research impact – met betrekking tot projectuitkomsten en kennis-, persoonlijke-, en systeemontwikkeling van betrokken actoren. Resultaten onderzoek Kennis die zowel online als offline te raadplegen is, in een boek, in wetenschappelijke artikelen en op een website. Deze kennis bevat: Inzicht in kansen om impact van e-health innovatie in ‘create health’-samenwerking te vergroten; Projectnarratieven met ‘best practices’ voor interdisciplinaire samenwerking waarbij onderzoekers, creatieve industrie en zorgprofessionals betrokken zijn; Guidelines voor ontwikkelaars van e-health applicaties m.b.t. samenwerking met de creatieve industrie; Guidelines voor beleidsmakers m.b.t. het stimuleren van samenwerking tussen zorg en creatieve industrie en het gebruik van creatieve manieren van werken om onderzoek naar de praktijk te krijgen; Aanpak Vanuit een service-dominant logic perspectief wordt bekeken hoe toegepaste kennis en skills worden gedeeld tussen actoren die betrokken zijn bij de verschillende ‘create health’-projecten, wat de meerwaarde daarvan is en wat actoren van die uitwisseling – als proces – leren. De focus ligt op co-creatie van waarde, die door samenwerking en uitwisseling tot stand komt. Door middel van procesonderzoek wordt er toegewerkt naar bijdragen aan theorieontwikkeling op het gebied van boundary crossing en contribution mapping. Resultaten Eindpublicatie: Create Health: Samenwerking tussen zorg, wetenschap en creatieve industrie (2023) Boek: Create Ways of Working. Insights from ten ehealth Innovation research projects (2022) Website www.creatieveonderzoeksmethodes.nl (2022) Bijdragen aan conferenties en symposia Co-design in de anderhalvemetermaatschappij (whitepaper), Dutch Design Week 2020. Download de presentatieslides. Collaborating in complexity. Strategies for interdisciplinary collaboration n design work, Design4Health conference 2020 Grounding Practices. How researchers ground their work in create-health collaborations for designing e-health solutions, Design4Health conference 2020 Seven ways to foster interdisciplinary collaboration in research involving healthcare and creative research disciplines, DementiaLab conference 2019 Posterpresentatie: Health x Design, DementiaLab conference 2019 Meer informatie over het Create Health programma Het ZonMw programma Create Health heeft als doel om bij te dragen aan de maatschappelijke uitdaging rondom gezond en actief ouder worden. Binnen het programma worden activiteiten uitgezet waarbij de samenwerking tussen de creatieve industrie en zorg en welzijn voorop staat. Het gaat hierbij om publiek-private samenwerking (PPS).
The objective of DIGIREAL-XL is to build a Research, Development & Innovation (RD&I) Center (SPRONG GROUP, level 4) on Digital Realities (DR) for Societal-Economic Impact. DR are intelligent, interactive, and immersive digital environments that seamlessly integrate Data, Artificial Intelligence/Machine Learning, Modelling-Simulation, and Visualization by using Game and Media Technologies (Game platforms/VR/AR/MR). Examples of these DR disruptive innovations can be seen in many domains, such as in the entertainment and service industries (Digital Humans); in the entertainment, leisure, learning, and culture domain (Virtual Museums and Music festivals) and within the decision making and spatial planning domain (Digital Twins). There are many well-recognized innovations in each of the enabling technologies (Data, AI,V/AR). However, DIGIREAL-XL goes beyond these disconnected state-of-the-art developments and technologies in its focus on DR as an integrated socio-technical concept. This requires pre-commercial, interdisciplinary RD&I, in cross-sectoral and inter-organizational networks. There is a need for integrating theories, methodologies, smart tools, and cross-disciplinary field labs for the effective and efficient design and production of DR. In doing so, DIGIREAL-XL addresses the challenges formulated under the KIA-Enabling Technologies / Key Methodologies for sectoral and societal transformation. BUas (lead partner) and FONTYS built a SPRONG group level 4 based on four pillars: RD&I-Program, Field Labs, Lab-Infrastructure, and Organizational Excellence Program. This provides a solid foundation to initiate and execute challenging, externally funded RD&I projects with partners in SPRONG stage one ('21-'25) and beyond (until' 29). DIGIREAL-XL is organized in a coherent set of Work Packages with clear objectives, tasks, deliverables, and milestones. The SPRONG group is well-positioned within the emerging MINDLABS Interactive Technologies eco-system and strengthens the regional (North-Brabant) digitalization agenda. Field labs on DR work with support and co-funding by many network organizations such as Digishape and Chronosphere and public, private, and societal organizations.
