Dienst van SURF
© 2025 SURF
Little consensus has emerged about how organizational performance should be defined and measured. Most studies have used traditional approaches to give their own perspective about organizational performance and effectiveness, but none have recently tried to encompass these different views into one unified model. In the present paper, Chelladurai's systems view of organizations is used to integrate the dimensions of organizational performance highlighted by previous studies on non-profit sport organizations. These organizational performance dimensions are highlighted and categorized into macro-dimensions (e.g., financial resources acquisition, size, internal atmosphere, organizational operating, financial independence, achieving elite sport success and mass sport participation). Relationships between these macro-dimensions are analyzed. A multidimensional framework is developed which gives an overview of which dimensions constitute organizational performance in non-profit sport organizations and of how to measure them. Further research directions and management implications are discussed.
LINK
The ‘Sport Physical Education and Coaching for Health (SPEACH) project, co-financed by the Erasmus+ Programme of the European Union (2015-2017) aims to increase awareness and behavioral change in sport professionals and European citizens towards an active and healthy lifestyle. The target is to develop and test Health Enhancing Physical Activities or HEPA modules that can be integrated in Physical Education Training Education structures and Sport Coaching courses. The different steps in this EU project are: (1) needs analyses among students (survey, interviews, focus groups), (2) development of most relevant HEPA modules based on the needs analysis results, (3) teach-the-teacher course (4) testing of 3 selected HEPA modules in a real-life setting with physical education and sport coaching students (n=60, from 8 countries) and teachers (n=12, from 7 countries), (5) sustainability of the project results, coordinated by the European Network of Sport Education (ENSE). The project is in its last phase (step 6). The titles of the three field-tested modules are (a) Development of a family-based HEPA project in the school & sport club context, (b) Promoting health enhancing physical activity among children and youth, and (c) Designing educational sport environments for children with special needs. The presentation will illustrate how the module on family-based HEPA was build up in content and didactical approach. The students were given the task to work out a health promotion project together with local sport clubs, school(s) and other local organizations. The goal of the intervention was to enhance (and maintain) health with children and make sure that parents are aware of possibilities to integrate PA in daily life for their children and themselves. A stepwise approach in small students groups was worked out concentrating on the themes: insight in stakeholders and their role in health promotion, behavior change theories, motivational interviewing and intervention mapping protocol. Advices for implementation on different educational levels (vocational, bachelor and master) and usefulness at national and international educational contexts will be given for the family-based module and for the project in general. Acknowledgements: this project is co-finance by the Erasmus+ programme of the European Union, 557083-EPP-1-2014-1-NL-SPO-SCP) Keywords: health policy, family-based intervention, school and sport club context, teacher training, sport coaching courses,
This book provides a sample of studies and concepts created within the project Media ENriched Sport ExperienceS (MENSES). A project powered by Hilversum Media Campus, ZIGGO and Breda University of Applied Sciences. MENSES aims to create new media enriched sport experiences, by means of introducing innovative digital concepts combining media entertainment and live sport content. It wants to share building stones and blueprints to be accessed in Hilversum. As such it will help organizations to answer the question how live and broadcasted sport experiences can be enriched by means of new digital strategies. By combining interaction, transformation and data enrichment, the mediated and live sport events should be turned into a memorable sport experience
The central aim of this project is to increase the participation of people (all ages) with severe multiple disabilities (PIMD) in the field of sport, exercise and physical activity, by expanding the number of coaches and organizations who offer a Motor Activity Training Program in a professional and custom way. This aim will be achieved by the following activities:- Creating a more appropriate and varied offer of sport, exercise, and physical activity to increase the choice of the PIMD target group. - To develop a curriculum for MATP Coaches and Trainers (PE Teachers, Physical Therapists, etc). - To implement, test and contextualize a PIMD offer in 3 EU countries, this will be done with local stakeholders. - Strengthening the connection between sport, education and health care organizations to enable participation of the PIMD people in the field of sport, exercise, and physical activity. - Consortium members create a European network and exchange knowledge, including through best practices
Even though considerable amounts of valuable wood are collected at waste collection sites, most of it remains unused and is burned: it is too labor-intensive to sort, process and upcycle useable parts. Valuable wood thus becomes worthless waste, against circular economy principles. In MoBot-Wood, waste collection organizations HVC and the municipality of Amsterdam, together with Rolan Robotics, Metabolic and AUAS investigate how waste wood can be sorted and processed at waste collection sites, using an easy-to-deploy robotic solution. In various preceding and on-going projects, AUAS and partners are exploring circular wood intake, sorting and processing using industrial robots, including processes like machine vision, 3D scanning, sawing, and milling. These projects show that harvesting waste wood is a challenging matter. Generally, the wood is only partially useable due to the presence of metal, excessive paint, deterioration by fungi and water, or other contamination and damages. To harvest useable wood thus requires intensive sorting and processing. The solution of transporting all the waste wood from collection sites to a central processing station might be too expensive and have a negative environmental impact. Considering that much of collected wood will need to be discarded, often no wood is harvested at all, due to the costs for collection and shipping. Speaking with several partners in related projects, the idea emerged to develop a mobile robotic station, which can be (temporarily) deployed at waste collection sites, to intake, sort and process wood for upcycling. In MoBot-Wood, research entails the design of such station, its deployment conditions, and a general assessment of its potential impact. The project investigates robotic sorting and processing on location as a new approach to increase the amount of valuable, useable wood harvested at waste collection sites, by avoiding material transport and reducing the volume of remaining waste.
The COVID19 pandemic highlighted the vulnerability in supply chain networks in the healthcare sector and the tremendous waste problem of disposable healthcare products, such as isolation gowns. Single-use disposable isolation gowns cause great ecological impact. Reusable gowns can potentially reduce climate impacts and improve the resilience of healthcare systems by ensuring a steady supply in times of high demand. However, scaling reusable, circular isolation gowns in healthcare organizations is not straightforward. It is impeded by economic barriers – such as servicing costs for each use – and logistic and hygiene barriers, as processes for transport, storage and safety need to be (re)designed. Healthcare professionals (e.g. purchasing managers) lack complete information about social, economic and ecological costs, the true cost of products, to make informed circular purchasing decisions. Additionally, the residual value of materials recovered from circular products is overlooked and should be factored into purchasing decisions. To facilitate the transition to circular procurement in healthcare, purchasing managers need more fine-grained, dynamic information on true costs. Our RAAK Publiek proposal (MODLI) addresses a problem that purchasing managers face – making purchasing decisions that factor in social, economic and ecological costs and future benefits from recovered materials. Building on an existing consortium that developed a reusable and recyclable isolation gown, we design and develop an open-source decision-support tool to inform circular procurement in healthcare organizations and simulate various purchasing options of non-circular and circular products, including products from circular cascades. Circular procurement is considered a key driver in the transition to a circular economy as it contributes to closing energy and material loops and minimizes negative impacts and waste throughout entire product lifecycles. MODLI aims to support circular procurement policies in healthcare organizations by providing dynamic information for circular procurement decision making.