Search results

INTELLI 2016 The Fifth International Conference on Intelligent Systems and Applications

Conference proceedings International Symposium on Intelligent Manufacturing Environments

Requirement elicitation and prototype development of an intelligent environment to support people with early dementia

In an aging population, the prevalence of people with dementia is increasing. Intelligent environments can offer a solution to support people in the early stages of dementia, who often experience problems with maintaining their day-night rhythm. The focus of this work is developing an Intelligent Environment for assisting these people with their daily structure while living independently at home. Three co-creation methods with several stakeholder groups were used to elicit requirements and develop a prototype of an Intelligent Environment. Participants were involved in sessions using Mind Maps (N=55), Idea Generation Cards (N=35), and in a multidisciplinary design team with representatives of eight organizations. The result of these sessions was a set of 10 requirements for the Intelligent Environment on the following topics: context-awareness, pattern recognition, adaptation, support, personalization, autonomy, modularity, dementia proof interaction, costs, data and privacy. Based on these requirements, several scenarios were developed to explicate such an environment for supporting people with early dementia. The design team translated the requirements to a real-life prototype of an Intelligent Environment integrated into a demonstration home. The prototype serves as a basis for further development of Intelligent Environments to enable people with dementia to live longer independently at home.

Developing an Intelligent Environment to Support People with Early-Stage Dementia: from User-Needs to a Real-Life Prototype

Intelligent environments can offer support to people with early-stage dementia, who often experience problems with maintaining their circadian rhythm. The focus of this work is developing a prototype of an Intelligent Environment for assisting these people with their daily rhythm while living independently at home. Following the four phases of the Empathic Design Framework (Explore, Translate, Process, and Validate), the needs of people with dementia and their caregivers were incorporated into the design. In the exploration phase, a need assessment took place using focus groups (N=12), observations (N=10), and expert interviews (N=27). Then, to determine the requirements for a prototype of an intelligent environment, the second phase, Translate, used three co-creation sessions with different stakeholder groups. In these sessions, Mind Maps (N=55) and Idea Generation Cards (N=35) were used. These resulted in a set of 10 requirements on the following topics: context-awareness, pattern recognition, adaptation, support, personalization, autonomy, modularity, dementia proof interaction, costs, data, and privacy. Finally, in the third phase, the requirements were applied to a real-life prototype by a multidisciplinary design team of researchers, (E-Health) tech companies, designers, software engineers with representatives of eight organizations. The prototype serves as a basis for further development of Intelligent Environments to enable people with dementia to live longer independently at home.

De bijdrage van Direct Manipulation Environments aan de ontwikkeling van technische geletterdheid in de basisschool.

Er is behoefte aan mensen die bijdragen leveren aan de ontwikkeling van technische producten en processen. Onderwijs heeft de opdracht de technische geletterdheid van leerlingen te ontwikkelen en te zorgen dat ze zich prettig voelen bij het hanteren van techniek. Deze studie focust op de bijdrage die Mindtools hieraan leveren. Mindtools zijn op ICT gebaseerde leermiddelen die samenwerkend constructivistisch leren en hoger-orde (kritisch en creatief) denken stimuleren. Het begrip Direct Manipulation Environments (DME's), een subklasse van Mindtools, kenmerkt concrete leermiddelen zoals de microwerelden "Lego Mindstorms" en "Techno Logica". Deze microwerelden functioneren op basis van een materieel technisch model dat direct via een computer¬programma bestuurd wordt en taken kan uitvoeren (robots). De leertaak voor de leerling kan zich bewegen op het continuüm van het zelf programmeren van een kant-en-klaar materieel model dat bepaalde taken moet uitvoeren tot en met het zelf bedenken, bouwen en programmeren van een dergelijk model dat een of meer taken kan uitvoeren. Op grond van eerder literatuuronderzoek en een casestudie veronderstellen we dat het educatief toepassen van DME's bijdraagt aan de ontwikkeling van de technische geletterdheid van leerlingen. Hoewel definiëring van technische geletterdheid meer aandacht vraagt, zijn de volgende drie dimensies voor onze analyses bruikbaar gebleken: inhoud (zoals feiten, concepten, voorschriften), praktijk (het handelen, het materiële, doen en realiseren) en de cognitieve dimensie (denkvaardigheden en denkhoudingen). Het is aannemelijk dat door het toepassen van DME's domeinspecifieke concepten en kennis ontwikkeld wordt. Het denken van leerlingen is gekoppeld aan contexten en taken en moet niet geïsoleerd worden bestudeerd. We concentreren ons in deze studie vooral op onderzoek naar de dimensie van de denkvaardigheden en denkhoudingen (het denken van leerlingenduo's bij het oplossen van een probleemtaak) door het analyseren van de verbale interactie op kenmerken van kritisch - en creatief denken. Er is gebruik gemaakt van een Techno Logica leeromgeving bestaande uit een computer met software, een interface, bestuurbare materialen zoals lampjes en motors, en een zelfinstructie handleiding. Twee in complexiteit toenemende probleemtaken, ieder gebaseerd op een kant-en-klaar materieel model (Verkeerslicht en Reuzenrad), zijn gebruikt om de leerlingen besturingen te laten ontwerpen en testen. Dit proces werd op video opgenomen. We veronderstellen dat Techno Logica een bruikbare Mindtool is wanneer werken ermee bijdraagt aan technologische geletterdheid, in de zin dat er sprake is van probleemoplossen en hoger orde denken. Om dit te operationaliseren ontwierpen we een gestructureerd observatie-instrument op basis van het IOWA Integrated Thinking Model en de theorie over denkhoudingen (Costa, 2000). Hiermee werd het voorkomen en de diversiteit van denkvaardigheden en denkhoudingen in de verbale acties en interactie gescoord. Op basis van onze waarnemingen concluderen we dat veel interactie en handelen eerder geduid kan worden als uitingen van denken dan trial and error. Er zijn indicaties dat de leeromgeving en probleemtaken leiden tot ontwikkeling van expertise waardoor een nieuwe (moeilijkere) probleemtaak efficiënter en effectiever opgelost wordt. We vragen we aandacht voor de rol van de docent. We ervaren immers dat nieuwe leermiddelen niet gemakkelijk geadopteerd worden door leerkrachten.

Intelligent Internationalization at Work in The Hague, the City of Peace and Justice

Intelligent internationalization, as outlined by Laura Rumbley in 2015, is a relevant notion to explore in specific institutional settings. The setting in this contribution is that of The Hague University of Applied Sciences (THUAS) and in order to understand intelligent internationalization in practice, the specific setting of the institution needs to be clarified first. The Hague, with its approximately 530,000 inhabitants, is not the capital of the Netherlands, but is the seat of government and therefore houses the parliament, ministries, embassies, and is also the residence of the royal house. The Hague has a long tradition as the host of international institutions. The 1899 and 1907 peace conferences were held in the city and the Peace Palace, opened in 1913, is home to the International Court of Justice (ICJ), the principal judicial organ of the United Nations and to the Permanent Court of Arbitration (PCA). Since 2002, The Hague also houses the International Criminal Court (ICC). The city thus provides a learning environment for all students (both domestic and international) at THUAS, not only through the internships that are a key component of all programs, but also through engagement with cultural organizations and local communities. The Hague University of Applied Sciences provides higher professional education to about 28,000 students, in more than 50 bachelor’s programs, as well as in a limited number of applied master’s programs. Nine programs are delivered in English. THUAS is an UNESCO institution and aims to be the most international university of applied sciences in the Netherlands by 2020, focusing on world citizenship skills, such as critical thinking, problem solving, and intercultural competence for all its students. THUAS’ student body is highly diverse with approximately 40% of its students having a non-Dutch background.

Designing persuasive interactive environments

Ambient Intelligent environments are interactive environments that sense human behaviour and can respond intelligently. This workshop explores how interactive environments can be designed with persuasive quality, influencing human experience and behaviour. The workshop follows a research-through-design approach where practise-relevant insights are gained while designing. The focus will be on intuitive and rational decision-making, the role of aesthetics in persuasion, social and spatial influences on persuasion and the ethics of designing for persuasion.

Designing learning environments at the school-work boundary

The central aim of this thesis was to increase understanding of designing vocational learning environments at the school–work boundary. Four studies were conducted, focusing on learning environment designs at the school–work boundary and on design considerations of the actors involved in their construction, both from the world of school and the world of work.

Homing wellness: can narrative design transform living spaces for people with dementia into engaging environments enabling communication?

Interactive design is an emerging trend in dementia care environments. This article describes a research project aiming at the design and development of novel spatial objects with narrative attributes that incorporate embedded technology and textiles to support the wellbeing of people living with dementia. In collaboration with people with dementia, this interdisciplinary research project focuses on the question of how innovative spatial objects can be incorporated into dementia long-term care settings, transforming the space into a comforting and playful narrative environment that can enhance self-esteem while also facilitating communication between people living with dementia, family, and staff members. The research methodologies applied are qualitative, including Action Research. Participatory design methods with the experts by experience—the people with dementia—and health professionals have been used to inform the study. Early findings from this research are presented as design solutions comprising a series of spatial object prototypes with embedded technology and textiles. The prototypes were evaluated primarily by researchers, health professionals, academics, and design practitioners in terms of functionality, aesthetics, and their potential to stimulate engagement. The research is ongoing, and the aim is to evaluate the prototypes by using ethnographic and sensory ethnography methods and, consequently, further develop them through co-design workshops with people living with dementia.

Intelligent light therapy for older adults: ambient assisted living

Physical learning environments’ supportiveness to innovative pedagogies: students’ and teachers’ experiences

Research into the relationship between innovative physical learning environments (PLEs) and innovative psychosocial learning environments (PSLEs) indicates that it must be understood as a network of relationships between multiple psychosocial and physical aspects. Actors shape this network by attaching meanings to these aspects and their relationships in a continuous process of gaining and exchanging experiences. This study used a psychosocial-physical, relational approach for exploring teachers’ and students’ experiences with six innovative PLEs in a higher educational institute, with the application of a psychosocial-physical relationship (PPR) framework. This framework, which brings together the multitude of PLE and PSLE aspects, was used to map and analyse teachers’ and students’ experiences that were gathered in focus group interviews. The PPR framework proved useful in analysing the results and comparing them with previous research. Previously-identified relationships were confirmed, clarified, and nuanced. The results underline the importance of the attunement of system aspects to pedagogical and spatial changes, and of a psychosocial-physical relational approach in designing and implementing new learning environments, including the involvement of actors in the discourse within and between the different system levels. Interventions can be less invasive, resistance to processes could be reduced, and innovative PLEs could be used more effectively.