The 'implementation' and use of smart home technology to lengthen independent living of non-instutionalized elderly have not always been flawless. The purpose of this study is to show that problems with smart home technology can be partially ascribed to differences in perception of the stakeholders involved. The perceptual worlds of caregivers, care receivers, and designers vary due to differences in background and experiences. To decrease the perceptual differences between the stakeholders, we propose an analysis of the expected and experienced effects of smart home technology for each group. For designers the effects will involve effective goals, caregivers are mainly interested in effects on workload and quality of care, while care receivers are influenced by usability effects. Making each stakeholder aware of the experienced and expected effects of the other stakeholders may broaden their perspectives and may lead to more successful implementations of smart home technology, and technology in general.
Expectations are high with regards to smart home technology. In particular, smart home technology is expected to support or enable independent living by older adults. This raises the question: can smart home technology contribute to independent living, according to older adults themselves? This chapter aims to answer this question by reviewing and discussing older adults’ perspectives on independence and their views on smart home technology. Firstly, older adults’ opinions on independence and aging in place are discussed. Secondly, this chapter will review to what extent smart home technology can support older adults’ independence. Thirdly, it will be explained how community-dwelling older adults’ concept of independence entails three distinct types or modes, and how these modes are related to their perceptions and acceptance of technology. In the last section of this chapter, an overview of key points is presented, and recommendations for technology designers, policy makers, and care providers are postulated.
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Background: The number of medical technologies used in home settings has increased substantially over the last 10-15 years. In order to manage their use and to guarantee quality and safety, data on usage trends and practical experiences are important. This paper presents a literature review on types, trends and experiences with the use of advanced medical technologies at home. Methods: The study focused on advanced medical technologies that are part of the technical nursing process and 'hands on' processes by nurses, excluding information technology such as domotica. The systematic review of literature was performed by searching the databases MEDLINE, Scopus and Cinahl. We included papers from 2000 to 2015 and selected articles containing empirical material. Results: The review identified 87 relevant articles, 62% was published in the period 2011-2015. Of the included studies, 45% considered devices for respiratory support, 39% devices for dialysis and 29% devices for oxygen therapy. Most research has been conducted on the topic 'user experiences' (36%), mainly regarding patients or informal caregivers. Results show that nurses have a key role in supporting patients and family caregivers in the process of homecare with advanced medical technologies and in providing information for, and as a member of multi-disciplinary teams. However, relatively low numbers of articles were found studying nurses perspective. Conclusions: Research on medical technologies used at home has increased considerably until 2015. Much is already known on topics, such as user experiences; safety, risks, incidents and complications; and design and technological development. We also identified a lack of research exploring the views of nurses with regard to medical technologies for homecare, such as user experiences of nurses with different technologies, training, instruction and education of nurses and human factors by nurses in risk management and patient safety.
A world where technology is ubiquitous and embedded in our daily lives is becoming increasingly likely. To prepare our students to live and work in such a future, we propose to turn Saxion’s Epy-Drost building into a living lab environment. This will entail setting up and drafting the proper infrastructure and agreements to collect people’s location and building data (e.g. temperature, humidity) in Epy-Drost, and making the data appropriately available to student and research projects within Saxion. With regards to this project’s effect on education, we envision the proposal of several derived student projects which will provide students the opportunity to work with huge amounts of data and state-of-the-art natural interaction interfaces. Through these projects, students will acquire skills and knowledge that are necessary in the current and future labor-market, as well as get experience in working with topics of great importance now and in the near future. This is not only aligned with the Creative Media and Game Technologies (CMGT) study program’s new vision and focus on interactive technology, but also with many other education programs within Saxion. In terms of research, the candidate Postdoc will study if and how the data, together with the building’s infrastructure, can be leveraged to promote healthy behavior through playful strategies. In other words, whether we can persuade people in the building to be more physically active and engage more in social interactions through data-based gamification and building actuation. This fits very well with the Ambient Intelligence (AmI) research group’s agenda in Augmented Interaction, and CMGT’s User Experience line. Overall, this project will help spark and solidify lasting collaboration links between AmI and CMGT, give body to AmI’s new Augmented Interaction line, and increase Saxion’s level of education through the dissemination of knowledge between researchers, teachers and students.
"Zoekt en gij zult vinden", luidt de bekende uitdrukking. Het Nederlandse MKB heeft veel technieken beschikbaar die voor een bekend probleem in Nederlandse verpleeghuizen een oplossing kan bieden: er raken in verpleeghuizen veel zaken zoek, van hulpmiddelen tot meubilair, wat leidt tot vele uren zoektijd voor zorgprofessionals en bewoners (met dementie) en hun naasten, en wat een negatieve invloed heeft op kwaliteit van zorg en onderhoud. Het doel van dit projectvoorstel is om een oplossing te ontwikkelen voor het zoekraken, niet in kaart hebben en het onbekend zijn met het gebruik, van hulpmiddelen in verpleeghuizen. Er bestaat zogenaamde track & trace technologie om locatie en gebruik van zaken te monitoren. Hoewel deze technologie op terreinen bouw, logistiek en ziekenhuiszorg in opkomst is, wordt deze in verpleeghuizen nog niet grootschalig ingezet. Er is bij bedrijven onvoldoende kennis over hoe deze technologie succesvol kan worden ingezet in verpleeghuizen waarbij de behoeften van zorgprofessionals en bewoners aan de basis van het ontwerp liggen. De maatschappelijke relevantie iets aan de problematiek te doen is niet alleen ingegeven door een behoefte de kwaliteit van zorg te ondersteunen, maar ook om geld te besparen door zoektijd te verminderen, en om beheer- en onderhoud van hulpmiddelen beter te kunnen stroomlijnen (logistiek en financieel) doordat bedrijven en verpleeghuizen een beter inzicht hebben in het gebruik. In dit project wordt met MKB-partners met een achtergrond in elektrotechnische installaties, ICT, bouw en inrichting en hulpmiddelen samengewerkt aan het ontwerpen en evalueren van een ?demonstrator?: een start van een field lab track & trace van hulpmiddelen voor zorginstellingen met twee testlocaties in verpleeghuizen. Dit doen deze partijen samen met twee verpleeghuisorganisaties en hun professionals teneinde een systeem te ontwikkelen dat aansluit bij de behoeften van de werkvloer en derhalve de grootste meerwaarde heeft voor de stakeholders. Hierbij zullen verschillende werkvormen worden gebruikt waarbij de nadruk ligt op de inbreng van alle betrokkenen. Door middel van focusgroep- en ontwerpsessies zullen stakeholders de behoeften op het gebied van track & trace van roerende goederen kunnen definiëren en omzetten in een concreet ontwerp. Het eindresultaat van het project zal naast concrete kennis vooral bestaan uit een tweetal demonstrators die met aanpassing ook in andere zorgsettings ingezet kunnen worden om kwaliteit van zorg en werkprocessen te ondersteunen. Deze demonstrators zullen tevens dienen als platform voor vervolgexperimenten.
