Background: To experience external objects in such a way that they are perceived as an integral part of one's own body is called embodiment. Wearable technology is a category of objects, which, due to its intrinsic properties (eg, close to the body, inviting frequent interaction, and access to personal information), is likely to be embodied. This phenomenon, which is referred to in this paper as wearable technology embodiment, has led to extensive conceptual considerations in various research fields. These considerations and further possibilities with regard to quantifying wearable technology embodiment are of particular value to the mobile health (mHealth) field. For example, the ability to predict the effectiveness of mHealth interventions and knowing the extent to which people embody the technology might be crucial for improving mHealth adherence. To facilitate examining wearable technology embodiment, we developed a measurement scale for this construct. Objective: This study aimed to conceptualize wearable technology embodiment, create an instrument to measure it, and test the predictive validity of the scale using well-known constructs related to technology adoption. The introduced instrument has 3 dimensions and includes 9 measurement items. The items are distributed evenly between the 3 dimensions, which include body extension, cognitive extension, and self-extension.Methods: Data were collected through a vignette-based survey (n=182). Each respondent was given 3 different vignettes, describing a hypothetical situation using a different type of wearable technology (a smart phone, a smart wristband, or a smart watch) with the purpose of tracking daily activities. Scale dimensions and item reliability were tested for their validity and Goodness of Fit Index (GFI). Results: Convergent validity of the 3 dimensions and their reliability were established as confirmatory factor analysis factor loadings45 (>0.70), average variance extracted values40 (>0.50), and minimum item to total correlations50 (>0.40) exceeded established threshold values. The reliability of the dimensions was also confirmed as Cronbach alpha and composite reliability exceeded 0.70. GFI testing confirmed that the 3 dimensions function as intercorrelated first-order factors. Predictive validity testing showed that these dimensions significantly add to multiple constructs associated with predicting the adoption of new technologies (ie, trust, perceived usefulness, involvement, attitude, and continuous intention). Conclusions: The wearable technology embodiment measurement instrument has shown promise as a tool to measure the extension of an individual's body, cognition, and self, as well as predict certain aspects of technology adoption. This 3-dimensional instrument can be applied to mixed method research and used by wearable technology developers to improve future versions through such things as fit, improved accuracy of biofeedback data, and customizable features or fashion to connect to the users' personal identity. Further research is recommended to apply this measurement instrument to multiple scenarios and technologies, and more diverse user groups.
Habitual behavior is often hard to change because of a lack of self-monitoring skills. Digital technologies offer an unprecedented chance to facilitate self-monitoring by delivering feedback on undesired habitual behavior. This review analyzed the results of 72 studies in which feedback from digital technology attempted to disrupt and change undesired habits. A vast majority of these studies found that feedback through digital technology is an effective way to disrupt habits, regardless of target behavior or feedback technology used.
this thesis was simply a research done to see how the manor amsterdam can use technologies to enhance its guest eperience. Surveys and intervews were conducted to see what the guest preferences were after which an implementation process was also drawn up.
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An important line of research within the Center of Expertise HAN BioCentre is the development of the nematode Caenorhabditis elegans as an animal testing replacement organism. In the context of this, us and our partners in the research line Elegant! (project number. 2014-01-07PRO) developed reliable test protocols, data analysis strategies and new technology, to determine the expected effects of exposure to specific substances using C. elegans. Two types of effects to be investigated were envisaged, namely: i) testing of possible toxicity of substances to humans; and ii) testing for potential health promotion of substances for humans. An important deliverable was to show that the observed effects in the nematode can indeed be translated into effects in humans. With regard to this aspect, partner Preventimed has conducted research in obesity patients during the past year into the effect of a specific cherry extract that was selected as promising on the basis of the study with C. elegans. This research is currently being completed and a scientific publication will have to be written. The Top Up grant is intended to support the publication of the findings from Elegant! and also to help design experimental protocols that enable students to become acquainted with alternative medical testing systems to reduce the use of laboratory animals during laboratory training.
JEWELS TOUR is a 4-year project funded by Interreg Europe and dealing with the valorisation of Jewish Cultural Heritage (JCH) in some European cities (Ferrara in Italy, Coimbra in Portugal, Erfurt in Germany, Lublin in Poland, Riga in Latvia, Ośrodek in Poland). Jewish cultural heritage is an integral part of the shared cultural heritage in Europe, and initiatives such as this project bring local stakeholders from different parts of Europe together to investigate the common responsibility of protecting tangible and intangible Jewish heritage. Across Europe, municipalities and local organizations recognize a need to make Jewish heritage accessible, and to do so in a sustainable way, that is in a way that benefit locals as well as visitors, with attention to economic as well as cultural and social benefits. The project aims is to devise policy instruments to promote Jewish cultural heritage, hereby including also digital ones, when possible. Technology is seen as an instrument to collect and share stories with equity, hereby also exploiting the emerging Collaborative Cloud for Cultural Heritage that is promoted at European level.Societal IssueCultural heritage has been increasingly recognised as a strategic asset for an inclusive and sustainable development across Europe, due to its capacity to promote diversity and intercultural dialogue, while contributing to a stronger sense of belonging and mutual respect. The JEWELS TOUR project addresses the challenge of Jewish Cultural Heritage (JCH) discontinuity, reflecting both in a low level of investments and connection between heritage resources and local/regional productive sectors, as well as in the attractiveness regarding the promotion of JC assets as drivers for sustainable tourism and regional development.Benefit to societyIn recent years, Cultural Heritage has been increasingly recognised as a strategic resource for a sustainable and peaceful Europe, due to its capacity to promote diversity and intercultural dialogue, while contributing to a stronger sense of belonging and mutual respect . At EU level, cultural investments are considered as key drivers of territorial development and social cohesion, and as essential elements leading to the promotion of social innovation. JEWELS TOUR contributes to sustainable tourism and social innovation by revaluing Europe’s JCH, reinforcing the sense of belonging and cultural diversity in Europe.Collaborating partnersFerrara Municipality Italy, Breda University of Applied Sciences Advisory Partner Netherlands, Ośrodek "Brama Grodzka - Teatr NN" Partner Poland, Coimbra Municipality Partner Portugal, City of Erfurt Partner Germany, Riga Investment and Tourism Agency Partner Latvia, Lublin Municipality Partner Poland.
