In discussions on smart grids, it is often stated that residential end-users will play a more active role in the management of the electric power system. Experience in practice on how to empower end-users for such a role is however limited. This paper presents a field study in the first phase of the PowerMatching City project in which twenty-two households were equipped with demand-response-enabled heating systems and white goods. Although end-users were satisfied with the degree of living comfort afforded by the smart energy system, the user interface did not provide sufficient control and energy feedback to support an active contribution to the balancing of supply and demand. The full potential of demand response was thus not realized. The second phase of the project builds on these findings by design, implementation and evaluation of an improved user interface in combination with two demand response propositions. © 2013 IEEE.
Purpose - This paper aims to identify whether employees’ organisational position affect their perceived quality of the workspace design. By providing possible explanations for the differences and discussing the implications, we aim to establish an effective workspace design process that satisfies different users of the commonly used work environment.Design/methodology/approach – The present paper analyses the results of a national online survey among members of the Board of Directors (n=17), facility managers (n=76), education managers (n=211), and lecturers (n=1,755) of 18 Dutch Universities of Applied Sciences, using Mann-Whitney U tests. Findings – The results show a clear misfit between the perceived quality of workspace design between Board members and facility managers on one hand and education managers and lecturers on the other. This possibly indicates a mismatch between which workspace design the organisation intends to provide and what users may require or expect.Practical implications – Based on the research findings, we propose facility managers should act more closely to the primary process and work to recognize their needs. Therefore, lecturers and education managers as end-users have to become truly emancipated, involving them periodically in workspace design improvement and listening and responding to what they say.Originality/value - This paper finds that the often presupposed support of facility management to the primary process seems rather weak, at least in the perception of end-users, and that facility managers should engage in participatory workspace design with end-users and challengethemselves to be the linking-pin between Board and end-users.
Under what conditions is end-user training (EUT) as part of the implementation of a business process management (BPM) system successful? This question is addressed in this paper. Based on the literature on EUT and implementation success, we first argue that user involvement with, and attitude towards, a BPM system, both have a conditional effect on the relationship between EUT and the implementation success of the system. Secondly, we investigated this expectation empirically, by measuring the practice of EUT as perceived by end-users. Using a mixed method approach, survey data was collected from 143 end-users of a BPM system in a large Dutch social insurance organisation, and by 49 additional semi-structured interviews. Regression analysis of the survey data shows that attitude variables indeed have a significant moderating influence on implementation success. In addition, the interviews revealed that specific attention must be paid to the arrangements for EUT when deploying BPM systems in this type of organisations. Arguments are given for a more comprehensive way of measuring and optimising EUT during the implementation of information systems/information technology in organisations.
Due to societal developments, like the introduction of the ‘civil society’, policy stimulating longer living at home and the separation of housing and care, the housing situation of older citizens is a relevant and pressing issue for housing-, governance- and care organizations. The current situation of living with care already benefits from technological advancement. The wide application of technology especially in care homes brings the emergence of a new source of information that becomes invaluable in order to understand how the smart urban environment affects the health of older people. The goal of this proposal is to develop an approach for designing smart neighborhoods, in order to assist and engage older adults living there. This approach will be applied to a neighborhood in Aalst-Waalre which will be developed into a living lab. The research will involve: (1) Insight into social-spatial factors underlying a smart neighborhood; (2) Identifying governance and organizational context; (3) Identifying needs and preferences of the (future) inhabitant; (4) Matching needs & preferences to potential socio-techno-spatial solutions. A mixed methods approach fusing quantitative and qualitative methods towards understanding the impacts of smart environment will be investigated. After 12 months, employing several concepts of urban computing, such as pattern recognition and predictive modelling , using the focus groups from the different organizations as well as primary end-users, and exploring how physiological data can be embedded in data-driven strategies for the enhancement of active ageing in this neighborhood will result in design solutions and strategies for a more care-friendly neighborhood.
Single-Use Plastics (SUPs) are at the centre of European Union Agenda aiming at reducing the plastic soup with the EU Directive 2019/904. SUPs reduction is pivotal also in the Dutch Government Agenda for the transition to a Circular Economy by 2050. Worldwide the data on SUPs use and disposal are impressive: humans use around 1.2 million plastic bottles per minute; approximately 91% of plastic is not recycled (www.earthday.org/fact-sheet-single-use-plastics/). While centralised processes of waste collection, disposal, and recycling strive to cope with such intense use of SUPs, the opportunities and constraints of establishing a networked grid of facilities enacting processes of SUPs collection and recycling with the active involvement of local community has remained unexplored. The hospitality sector is characterised by a widespread capillary network of small hospitality firms nested in neighbourhoods and rural communities. Our research group works with small hospitality firms, different stakeholders, and other research groups to prompt the transition of the hospitality sector towards a Circular Economy embracing not only the environmental and economic dimensions but also the social dimension. Hence, this project explores the knowledge and network needed to build an innovative pilot allowing to close the plastic loop within a hospitality facility by combining a 3D printing process with social inclusiveness. This will mean generating key technical and legal knowledge as well as a network of strategic experts and stakeholders to be involved in an innovative pilot setting a 3D printing process in a hospitality facility and establishing an active involvement of the local community. Such active involvement of the local inhabitants will be explored as SUPs collectors and end-users of upcycled plastics items realised with the 3D printer, as well as through opportunities of vocational training and job opportunities for citizens distant from the job market.
The SPRONG-collaboration “Collective process development for an innovative chemical industry” (CONNECT) aims to accelerate the chemical industry’s climate/sustainability transition by process development of innovative chemical processes.The CONNECT SPRONG-group integrates the expertise of the research groups “Material Sciences” (Zuyd Hogeschool [Zuyd]), “Making Industry Sustainable” (Hogeschool Rotterdam [HRotterdam]), “Innovative Testing in Life Sciences & Chemistry” and “Circular Water” (both Hogeschool Utrecht [HUtrecht]) and affiliated knowledge centres (Centres of Expertise CHILL [affiliated to Zuyd] and HRTech, and Utrecht Science Park InnovationLab [ILab]).The combined CONNECT-expertise generates critical mass to facilitate process development of necessary energy-/material-efficient processes for the 2050 goals of the Knowledge and Innovation Agenda (KIA) Climate and Energy (mission C) using Chemical Key Technologies. CONNECT focuses on process development/chemical engineering. We will collaborate with SPRONG-groups centred on chemistry and other non-SPRONG initiatives.The CONNECT-consortium will generate a Learning Community of the core group (universities of applied science [UASs] and knowledge centres), companies (high-tech equipment, engineering and chemical end-users), secondary vocational training, universities, sustainability institutes and regional governments/network organizations that will facilitate research, demand articulation and professionalization of students and professionals.