Lecture in PhD Programme Life Science Education Research UMCU. Course Methods of Life Science Education Research. Utrecht, The Netherlands. abstract Audit trail procedures are applied as a way to check the validity of qualitative research designs, qualitative analyses, and the claims that are made. Audit trail procedures can be conducted based on the three criteria of visibility, comprehensibility, and acceptability (Akkerman et al., 2008). During an audit trail procedure, all documents and materials resulting from the data gathering and the data analysis are assessed by an auditor. In this presentation, we presented a summative audit trail procedure (Agricola, Prins, Van der Schaaf & Van Tartwijk, 2021), whereas in a second study we used a formative one (Agricola, Van der Schaaf, Prins & Van Tartwijk, 2022). For both studies, two different auditors were chosen. For the study presented in Agricola et al. (2021) the auditor was one of the PhD supervisors, while in that presented Agricola et al. (2022) was a junior researcher not involved in the project. The first auditor had a high level of expertise in the study’s topic and methodology. As a result, he was able to provide a professional and critical assessment report. Although the second auditor might be considered to be more objective than the first, as she was not involved in the project, more meetings were needed to explain the aim of the study and the aim of the audit trail procedure. There are many ideas about the criteria that qualitative studies should meet (De Kleijn en Van Leeuwen, 2018). I argue that procedures of checking for interrater agreement and understanding, the triangulation, and audit trail procedures can increase the internal validity of qualitative studies. Agricola, B. T., Prins, F. J., van der Schaaf, M. F., & van Tartwijk, J. (2021). Supervisor and Student Perspectives on Undergraduate Thesis Supervision in Higher Education. Scandinavian Journal of Educational Research, 65(5), 877-897. doi: https://doi.org/10.1080/00313831.2020.1775115 Agricola, B. T., van der Schaaf, M. F., Prins, F. J., & van Tartwijk, J. (2022). The development of research supervisors’ pedagogical content knowledge in a lesson study project. Educational Action Research. doi: https://doi.org/10.1080/09650792.2020.1832551 de Kleijn, R. A. M., & Van Leeuwen, A. (2018). Reflections and review on the audit procedure: Guidelines for more transparency. International Journal of Qualitative Methods, 17(1), 1-8. doi: https://doi.org/10.1177/1609406918763214 Akkerman, S., Admiraal, W., Brekelmans, M., & Oost, H. (2008). Auditing quality of research in social sciences. Quality & Quantity, 42(2), 257-274. doi: https://doi.org/10.1007/s11135-006-9044-4
Deze casestudie geeft inzicht in verschillende soorten kennis die kenmerkend zijn voor applied design research. Er wordt onderscheid gemaakt tussen kennis over de huidige situatie, over wenselijke alternatieven en over effectieve oplossingen om daar te komen. Ofwel, kennis hoe het is, kennis over hoe het kan zijn en kennis over hoe het zal zijn als we effectieve oplossingen toepassen. Elk van deze soorten kennis heeft andere kwaliteitscriteria.
from the publisher's site: "The purpose of this paper is to investigate the nature of qualitative construction partnering research. Design/methodology/approach. In total, 20 qualitative peer-reviewed papers about construction partnering research are reviewed. Findings: The results show four methodological gaps. All identified gaps have in common that specific time and place dependent details that may have influenced understanding of studied individuals are underexposed. Research limitations/implications The main limitation of this study is that empirical-based papers are divided into either qualitative or quantitative research, but the boundary between those categories is not as black and white as it may look like in first instance." Marieke Venselaar, Hans Wamelink, (2017) "The nature of qualitative construction partnering research: literature review", Engineering, Construction and Architectural Management, Vol. 24 Issue: 6, pp.1092-1118, https://doi.org/10.1108/ECAM-04-2016-0098
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.
The Dutch main water systems face pressing environmental, economic and societal challenges due to climatic changes and increased human pressure. There is a growing awareness that nature-based solutions (NBS) provide cost-effective solutions that simultaneously provide environmental, social and economic benefits and help building resilience. In spite of being carefully designed and tested, many projects tend to fail along the way or never get implemented in the first place, wasting resources and undermining trust and confidence of practitioners in NBS. Why do so many projects lose momentum even after a proof of concept is delivered? Usually, failure can be attributed to a combination of eroding political will, societal opposition and economic uncertainties. While ecological and geological processes are often well understood, there is almost no understanding around societal and economic processes related to NBS. Therefore, there is an urgent need to carefully evaluate the societal, economic, and ecological impacts and to identify design principles fostering societal support and economic viability of NBS. We address these critical knowledge gaps in this research proposal, using the largest river restoration project of the Netherlands, the Border Meuse (Grensmaas), as a Living Lab. With a transdisciplinary consortium, stakeholders have a key role a recipient and provider of information, where the broader public is involved through citizen science. Our research is scientifically innovative by using mixed methods, combining novel qualitative methods (e.g. continuous participatory narrative inquiry) and quantitative methods (e.g. economic choice experiments to elicit tradeoffs and risk preferences, agent-based modeling). The ultimate aim is to create an integral learning environment (workbench) as a decision support tool for NBS. The workbench gathers data, prepares and verifies data sets, to help stakeholders (companies, government agencies, NGOs) to quantify impacts and visualize tradeoffs of decisions regarding NBS.
Electronic Sports (esports) is a form of digital entertainment, referred to as "an organised and competitive approach to playing computer games". Its popularity is growing rapidly as a result of an increased prevalence of online gaming, accessibility to technology and access to elite competition.Esports teams are always looking to improve their performance, but with fast-paced interaction, it can be difficult to establish where and how performance can be improved. While qualitative methods are commonly employed and effective, their widespread use provides little differentiation among competitors and struggles with pinpointing specific issues during fast interactions. This is where recent developments in both wearable sensor technology and machine learning can offer a solution. They enable a deep dive into player reactions and strategies, offering insights that surpass traditional qualitative coaching techniquesBy combining insights from gameplay data, team communication data, physiological measurements, and visual tracking, this project aims to develop comprehensive tools that coaches and players can use to gain insight into the performance of individual players and teams, thereby aiming to improve competitive outcomes. Societal IssueAt a societal level, the project aims to revolutionize esports coaching and performance analysis, providing teams with a multi-faceted view of their gameplay. The success of this project could lead to widespread adoption of similar technologies in other competitive fields. At a scientific level, the project could be the starting point for establishing and maintaining further collaboration within the Dutch esports research domain. It will enhance the contribution from Dutch universities to esports research and foster discussions on optimizing coaching and performance analytics. In addition, the study into capturing and analysing gameplay and player data can help deepen our understanding into the intricacies and complexities of teamwork and team performance in high-paced situations/environments. Collaborating partnersTilburg University, Breda Guardians.
