The five papers in the DRS 2022 track “AI and the Conditions of Design: Towards A New Set of Design Ideals” offer radical lenses to change the narrative around AI and open pathways towards pluralist digital futures, signaling redirections for experimenting with more inclusive and imaginative design practices.
The guidance offered here is intended to assist social workers in thinking through the specific ethical challenges that arise whilst practising during a pandemic or other type of crisis. In crisis conditions, people who need social work services, and social workers themselves, face increased and unusual risks. These challenging conditions are further compounded by scarce or reallocated governmental and social resources. While the ethical principles underpinning social work remain unchanged by crises, unique and evolving circumstances may demand that they be prioritised differently. A decision or action that might be regarded as ethically wrong in ‘normal’ times, may be judged to be right in a time of crisis. Examples include: prioritising individual and public health considerations by restricting people’s freedom of movement; not consulting people about treatment and services; or avoiding face-to-face meetings.
MULTIFILE
The aim of the current study was to examine the effectiveness of a school-centered multicomponent PA intervention, called ‘Active Living’, on children's daily PA levels. A quasi-experimental design was used including 9 intervention schools and 9 matched control schools located in the Netherlands. The baseline measurement took place between March–June 2013, and follow-up measurements were conducted 12 months afterwards. Accelerometer (ActiGraph, GT3X +) data of 520 children aged 8–11 years were collected and supplemented with demographics and weather conditions data. Implementation magnitude of the interventions was measured by keeping logbooks on the number of implemented physical environmental interventions (PEIs) and social environmental interventions (SEIs). Multilevel multivariate linear regression analyses were used to study changes in sedentary behavior (SB), light physical activity (LPA) and moderate-to-vigorous physical activity (MVPA) between baseline and follow-up. Finally, effect sizes (ESs) were calculated using Cohen's d. No pooled effects on PA and SB were found between children exposed and not exposed to Active Living after 12 months. However, children attending Active Living schools that implemented larger numbers of both PEIs and SEIs engaged in 15 more minutes of LPA per weekday at follow-up than children in the control condition (ES = 0.41; p < .05). Moreover, children attending these schools spent less time in SB at follow-up (ES = 0.33), although this effect was non-significant. No significant effects were found on MVPA. A school-centered multicomponent PA intervention holds the potential to activate children, but a comprehensive set of intervention elements with a sufficient magnitude is necessary to achieve at least moderate effect sizes.
MULTIFILE
In June 2016, two Dutch SME companies which are active in the area of urban solid waste management approached the International Environmental Sciences department of Avans about the current R&D activities on urban solid waste management in cooperation with the Federal University of Minas Gerais (UFMG) Brazil. The companies had interest in developing activities in Brazil, since they are aware of the great potential for exporting both knowledge and technology. Solid waste poses a major problem in Brazil which affects 200 million residents. The Brazilian municipalities collect around 71 million tons solid municipal waste on a yearly basis and only a tiny percentage of this collected waste gets recycled. As such. the overwhelming majority of the collected urban solid waste goes to landfills. Within the State of Minas Gerais there are 850 towns of which 600 have less than 20.000 residents and are agriculturally oriented. Current organic waste composting practices take place under very poor conditions (pathogens and weeds still remain in the compost) and most often the resulting compost product is not well received by its residential and agricultural consumers. As such there is huge room for improvement. The SME companies work with Avans and UFMG to address these challenges. The joint research team consisting of the two Dutch SME companies and the two Research and educational institutes have defined the following research question: What is the current status of organic solid waste management in Minas Gerais and how can cooperation between Brazil and the Netherlands result in a win-win for both countries? Two individual KIEM VANG proposals have been defined in order to address these challenges. The planned activities are a joint effort with professor R. T. de Vasconcelos Barros of the Universidade Federal de Minas Gerais (UFMG) and are executed within the Living Lab Biobased Brazil program (www.biobasedbrazil.org).
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.
English: This living lab aims to support the creation, development and implementation of next generation concepts for sustainable healthcare logistics, with special attention for last mile solutions. Dutch healthcare providers are on the verge of a transition towards (more) sustainable business models, spurred by e.g., increasing healthcare costs, ongoing budget cuts, tight labor market conditions and increasing ecological awareness. Consequently, healthcare providers need to improve and innovate their business model and underlying logistics concept(s). Simultaneously, many cities are struggling with congestion in traffic, air quality and liveability in general. This calls for Last Mile Logistics (LML) concepts that can address challenges like effective and efficient resource planning, scheduling and utilization and, particularly, sustainability goals. LML can reduce environmental and social impact by decreasing emissions, congestion and pollution through effectively consolidating in-flows of goods and providing innovative solutions for care, wellbeing and related services. The research and initiatives in the living lab will address the following challenges: reducing the ecological footprint, reducing (healthcare-related) costs, improving service quality, decreasing loneliness of frail citizens and improving the livability of urban areas (reducing congestion and emissions). Given the scarcity and fragmentation of knowledge on healthcare logistics in organizations the living lab will also act as a learning community for (future) healthcare- and logistics professionals, thereby supporting the development of human capital. By working closely with related stakeholders and using a transdisciplinary research approach it is ensured that the developed knowledge and solutions deliver a contribution to societal challenges and have sound business potential.
