Despite assumptions that wearable self-care technologies such as smart wristbands and smart watches help users to monitor and self-manage health in daily life, adherence rates are often quite low. In an effort to better understand what determines adherence to wearable self-care technologies, researchers have started to consider the extent to which a technology is perceived as being part of the user (i.e., technology embodiment) and the extent to which users feel they can influence reaching their health goals (i.e., empowerment). Although both concepts are assumed to determine adherence, few studies have empirically validated their influence. Furthermore, the relationships between technology embodiment, empowerment, and adherence to wearable self-care technology have also not been addressed. Drawing upon embodied theory and embodiment cognition theory, this research paper introduces and empirically validates ‘embodied empowerment’ as a predictor of adherence to wearable self-care technology. Using partial least squares structural equation modeling and multigroup analysis on a dataset of 317 wearable self-care technology users, we find empirical evidence of the validity of embodied empowerment as a determinant of adherence. We also discuss the implications for research and practice.
From the article: Abstract Over the last decades, philosophers and cognitive scientists have argued that the brain constitutes only one of several contributing factors to cognition, the other factors being the body and the world. This position we refer to as Embodied Embedded Cognition (EEC). The main purpose of this paper is to consider what EEC implies for the task interpretation of the control system. We argue that the traditional view of the control system as involved in planning and decision making based on beliefs about the world runs into the problem of computational intractability. EEC views the control system as relying heavily on the naturally evolved fit between organism and environment. A ‘lazy’ control structure could be ‘ignorantly successful’ in a ‘user friendly’ world, by facilitating the transitory creation of a flexible and integrated set of behavioral layers that are constitutive of ongoing behavior. We close by discussing the types of questions this could imply for empirical research in cognitive neuroscience and robotics.
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Conceptual metaphors play a vital role in our ability to think in abstract terms like knowledge. Metaphors structure and give meaning to the concept of knowledge. They hide and highlight certain characteristics. The choice of metaphor when reasoning about knowledge is therefore of vital importance for knowledge management (KM). This paper explores the possibility of introducing new knowledge metaphors to the field of KM. Based on a ‘wish list’ of characteristics of knowledge they want to highlight, the authors choose to explore the Knowledge as a Journey metaphor as a new metaphor for knowledge. This results in new insights regarding knowledge sharing, acquisition, retention, and innovation.
The climate change and depletion of the world’s raw materials are commonly acknowledged as the biggest societal challenges. Decreasing the energy use and the related use of fossil fuels and fossil based materials is imperative for the future. Currently 40% of the total European energy consumption and about 45% of the CO2 emissions are related to building construction and utilization (EC, 2015). Almost half of this energy is embodied in materials. Developing sustainable materials to find replacement for traditional building materials is therefore an increasingly important issue. Mycelium biocomposites have a high potential to replace the traditional fossil based building materials. Mycelium is the ‘root network’ of mushrooms, which acts as a natural glue to bind biomass. Mycelium grows through the biomass, which functions simultaneously as a growth substrate and a biocomposite matrix. Different organic residual streams such as straw, sawdust or other agricultural waste can be used as substrate, therefore mycelium biocomposites are totally natural, non-toxic, biological materials which can be grown locally and can be composted after usage (Jones et al., 2018). In the “Building On Mycelium” project Avans University of Applied Sciences, HZ University of Applied Sciences, University of Utrecht and the industrial partners will investigate how the locally available organic waste streams can be used to produce mycelium biocomposites with properties, which make them suitable for the building industry. In this project the focus will be on studying the use of the biocomposite as raw materials for the manufacturing of furniture or interior panels (insulation or acoustic).
On a societal scale, the ‘problem with work’ is that everyone is exhausted, job security has been replaced by ‘flex work’ and much important work had been invisibilised. While billions of people are displaced and illegalized from work, others have physical/ mental conditions caused by work. The problem with work merits scrutiny not only from medical, corporate or legal perspectives. It needs tackling without an agenda of productivity, with an open regard and embodied, intuitive research. Artistic research has this scope. It taps into knowledges that are underused/repressed, by involving the body, harnessing intuition, experience and situatedness, and activating a plurality of voices. The aim of this research is to gain a deeper understanding of what is (not) work, who we are when we perform work, and when we don’t or are not able to work. Why are certain activities or roles called work and what happens when the term is applied to activities that are not normally deemed work, but which include comparable elements? Three research questions are addressed: 1. What can be learned about work by regarding every job, or all the work, as a performance? 2. What can be learned about performance (art) by looking at it through the lens of work? 3. What are ethical practices in collaborative and participative work processes? The research is carried out through an artistic approach that contains a particular way of making, teaching and researching which is collaborative, performative and transdisciplinary. It proposes the body as a thinking apparatus, experience as a way of gathering information and doing, writing, exchanging and performing as both method and dissemination. This research aims to contribute to a better understanding of what work is in our lives. The research has social, artistic and educational targets and target groups, which are also intertwined.
The climate change and depletion of the world’s raw materials are commonly acknowledged as the biggest societal challenges. Decreasing the energy use and the related use of fossil fuels and fossil based materials is imperative for the future. Currently 40% of the total European energy consumption and about 45% of the CO2 emissions are related to building construction and utilization (EC, 2015). Almost half of this energy is embodied in materials. Developing sustainable materials to find replacement for traditional building materials is therefore an increasingly important issue. In the original RAAK-mkb project “Building On Mycelium” Avans University of Applied Sciences, HZ University of Applied Sciences, University of Utrecht, industrial partners, SME’s and branch organisation are investigating how locally available organic waste streams can be used to produce ‘mycelium biocomposites’. Mycelium biocomposites consist of two components: mycelium and biomass fibres. Mycelium is the ‘root network’ of mushrooms, which can act as a ‘natural glue’ to bind biomass. Mycelium grows through the biomass, which functions simultaneously as a growth substrate and a biocomposite matrix. Different organic residual streams such as straw, sawdust or other agricultural waste can be used as substrate, therefore mycelium biocomposites are totally natural, non-toxic, biological materials which can be grown locally and can be composted after usage. Therefore Mycelium biocomposites have a high potential to replace the traditional fossil based building materials. This Raak impuls 2020 project aims to create mycelium biocomposites with properties that make them suitable for the building industry. Specifically the use of the biocomposite as raw materials for the manufacturing of furniture or interior panels (insulation or acoustic).
