Dit rapport beschrijft de achtergrond en bevindingen van een studie naar de bijdrage van job crafting aan duurzame inzetbaarheid. Job crafting gaat uit van het principe dat werknemers zelf bewust (en soms minder bewust) aanpassingen doen aan de taakinhoud en –uitvoering, zodat het werk beter aansluit bij veranderende behoeftes, sterktes en (cognitieve of fysieke) vermogens. In het kader van een TNO-onderzoeksprogramma1 gericht op de bevordering van duurzame inzetbaarheid onder oudere werknemers in de context van lagergeschoold werk zijn de mogelijkheden van job crafting binnen 3 pilotorganisaties verkend.
This study was explorative in nature and aimed at in-depth understanding of the personal resources students use to reach self-defined success. To gain an in-depth understanding of personal resources that benefit students’ performance in the demanding context of honors education, we used qualitative methods.Becoming successful in higher education demands a lot from students. Considering the Job Demands-Resources (JD-R) model, a model that is also applicable in education because of the similarities between work and study, it is expected that personal resources help students succeed in demanding situations. In this study, we explored which personal resources benefit students’ performance in the demanding context of honors education. Using a preparatory digital questionnaire and semi-structured interviews, we asked 13 honors students of three Dutch Universities of Applied Sciences which personal resources had helped them to achieve success. The results suggest that the personal resources used varied among honors students. The most frequently mentioned resources could be grouped around five themes: self-directiveness, inquiry-mindedness, perseverance, social involvement, and motivation. Especially resources in the themes self-directiveness, inquiry-mindedness and perseverance were perceived as important facilitators for educational success, like passing exams. The outcomes of this study may inform interventions to help students develop personal resources needed to handle high educational demands. Further research is needed to identify the most effective interventions.
MULTIFILE
BACKGROUND:The number of workers who have previously undergone a cancer treatment is increasing, and possible late treatment effects (fatigue, physical and cognitive complaints) may affect work ability.OBJECTIVE:The aim of the study was to investigate the impact of late treatment effects and of job resources (autonomy, supportive leadership style, and colleagues’ social support) on the future work ability of employees living 2–10 years beyond a breast cancer diagnosis.METHODS:Data at T1 (baseline questionnaire) and at T2 (9 months later) were collected in 2018 and 2019 (N = 287) among Dutch-speaking workers with a breast cancer diagnosis 2–10 years ago. Longitudinal regression analyses, controlling for years since diagnosis, living with cancer (recurrence or metastasis), other chronic or severe diseases, and work ability at baseline were executed.RESULTS:Higher levels of fatigue and cognitive complaints at baseline predicted lower future work ability. The three job resources did not predict higher future work ability, but did relate cross-sectionally with higher work ability at baseline. Autonomy negatively moderated the association between physical complaints and future work ability.CONCLUSIONS:Fatigue and cognitive complaints among employees 2–10 years past breast cancer diagnosis need awareness and interventions to prevent lower future work ability. Among participants with average or high levels of physical complaints, there was no difference in future work ability between medium and high autonomy. However, future work ability was remarkably lower when autonomy was low.
Dit programma, gefinancierd door de Europese Commissie, zal een nieuwe strategie voor ontwerp en adoptie van ICT-competenties ontwikkelen en vertalen naar een curriculum voor beroepsonderwijs en -opleidingen in Europa. Doel is om huidige en toekomstige competentietekorten in de Europese softwaresector aan te pakkenDoel De Europese Software Skills Alliantie (gefinancierd door de Europese Commissie) is een samenwerkingsverband met als doel het ontwerpen, implementeren en verspreiden van een nieuwe strategie voor het opstellen en adopteren van ICT-competenties om huidige en toekomstige competentietekorten in de Europese softwaresector aan te pakken. Resultaten Alle partners werken samen om ervoor te zorgen dat de nieuwe Software Skills-strategie voortkomt uit de vraag van het werkveld naar softwarevaardigheden. Hierbij speelt de combinatie van beroepsonderwijs en -opleiding en werkgebaseerde leerinitiatieven een rol om snelle bijscholing en omscholing te implementeren. De nieuwe strategie en onderwijsoplossing houden rechtstreeks verband met erkende Europese instrumenten, en normen die vaardigheden en loopbaanontwikkeling in het algemeen mogelijk maken. Bovendien zullen nieuwe mechanismen hierin worden opgenomen, voor een duurzame implementatie in de verschillende programmalanden. Looptijd 01 december 2020 - 31 december 2024 Meer nieuws Website ESSA softwareskills.eu Aanmelden ESSA nieuwsbrief LinkedIn groep ESSA Needs Analysis Rapport - Europe’s Most Needed Software Roles and Skills Presentatie Key Findings 2021 Needs Analysis Report Artikel: The Software Skills and Professionals You Need in Your Team Artikel: The Top 4 Skills for Software Professionals Artikel: 2021 Retrospective: The Good, the Bad, and the Merry Artikel: NL Case Studie - Digitale certificaten voor de erkenning van niet formele educatie Blog HU lector Pascal Ravesteijn: Towards an European Software Skills Strategy ESSA highlights Launch event ESSA Case Study Booklet - 12 ideas to tackle the shortage of Software Professionals in Europe Wetenschappelijk issue: Bridge the Gap: ICT Competences and Vocational Education and Training ESSA CommunityESSA heeft de ESSA Software Skills-community opgericht om individuen met elkaar te verbinden die ernaar streven te voldoen aan de bijscholings- en bijscholingsbehoeften van de softwaresector in Europa. De community richt zich op de volgende onderwerpen: software, ontwikkeling van software vaardigheden, lesgeven en leren, training, human resources, technologie en carrières. Aanpak Het project bestaat uit zes werkpakketten. Het lectoraat Procesinnovatie & Informatiesystemen is actief betrokken bij alle werkpakketten en co-lead voor werkpakket vier waarin doormiddel van een pilot het ontworpen curriculum wordt getoetst. Hierbij zijn de belangrijkste resultaten van dit werkpakket: modulaire opleidingsprogramma's om de nieuwe curricula voor beroepsonderwijs en -opleidingen te implementeren, die elk bestaan uit een reeks modules die samen de geformuleerde leerdoelen omvatten; proefprogramma's voor beroepsonderwijs en -opleidingen opzetten en uitvoeren voor verschillende doelgroepen in 7 EU-partnerlanden, de doeltreffendheid meten, feedback verzamelen en de opleidingsprogramma's herhalen en verbeteren; werkplek leren opnemen in de nieuwe opleidingsprogramma's met mogelijkheden om kennis toe te passen in praktische situaties die verband houden met elke rol en waar mogelijk transnationale leerervaring opnemen; een Train-the-Trainer-programma ontwikkelen om de bijscholing van docenten te vergemakkelijken waarbij zij de kennis, het vertrouwen en de hulpmiddelen verkrijgen om de training volgens de hoogste kwaliteitsnormen te geven. Relevantie beroepspraktijk ESSA heeft tot doel een innovatief en uitgebreid onderwijscurriculum te ontwikkelen dat is aangepast aan verschillende rol- en functieprofielen en onderliggende competenties, kennis en vaardigheden van de sector. Stap 1: Een analyse van de markt- en bedrijfsbehoeften worden uitgevoerd om een gefundeerde basis te leggen voor de ontwikkeling en implementatie van zowel de Software Skills Strategie als de onderwijsprogramma's. Een belangrijk element hierbij is het werkplek leren (bv. via stage of learning-on-the-job). Stap 2: In een pilot wordt het nieuw ontwikkelde onderwijsmateriaal getest om daarna een vaste plek te krijgen in het curriculum van zowel hoger onderwijsinstellingen als commerciële trainingsbureaus in Europa. Meer weten? www.softwareskills.eu/ DigitalEurope.org ESSA LinkedIn en Twitter
A fast growing percentage (currently 75% ) of the EU population lives in urban areas, using 70% of available energy resources. In the global competition for talent, growth and investments, quality of city life and the attractiveness of cities as environments for learning, innovation, doing business and job creation, are now the key parameters for success. Therefore cities need to provide solutions to significantly increase their overall energy and resource efficiency through actions addressing the building stock, energy systems, mobility, and air quality.The European Energy Union of 2015 aims to ensure secure, affordable and climate-friendly energy for EU citizens and businesses among others, by bringing new technologies and renewed infrastructure to cut household bills, create jobs and boost growth, for achieving a sustainable, low carbon and environmentally friendly economy, putting Europe at the forefront of renewable energy production and winning the fight against global warming.However, the retail market is not functioning properly. Many household consumers have too little choices of energy suppliers and too little control over their energy costs. An unacceptably high percentage of European households cannot afford to pay their energy bills. Energy infrastructure is ageing and is not adjusted to the increased production from renewables. As a consequence there is still a need to attract investments, with the current market design and national policies not setting the right incentives and providing insufficient predictability for potential investors. With an increasing share of renewable energy sources in the coming decades, the generation of electricity/energy will change drastically from present-day centralized production by gigawatt fossil-fueled plants towards decentralized generation, in cities mostly by local household and district level RES (e.g PV, wind turbines) systems operating in the level of micro-grids. With the intermittent nature of renewable energy, grid stress is a challenge. Therefore there is a need for more flexibility in the energy system. Technology can be of great help in linking resource efficiency and flexibility in energy supply and demand with innovative, inclusive and more efficient services for citizens and businesses. To realize the European targets for further growth of renewable energy in the energy market, and to exploit both on a European and global level the expected technological opportunities in a sustainable manner, city planners, administrators, universities, entrepreneurs, citizens, and all other relevant stakeholders, need to work together and be the key moving wheel of future EU cities development.Our SolutionIn the light of such a transiting environment, the need for strategies that help cities to smartly integrate technological solutions becomes more and more apparent. Given this condition and the fact that cities can act as large-scale demonstrators of integrated solutions, and want to contribute to the socially inclusive energy and mobility transition, IRIS offers an excellent opportunity to demonstrate and replicate the cities’ great potential. For more information see the HKU Smart Citieswebsite or check out the EU-website.
The postdoc candidate, Sondos Saad, will strengthen connections between research groups Asset Management(AM), Data Science(DS) and Civil Engineering bachelor programme(CE) of HZ. The proposed research aims at deepening the knowledge about the complex multidisciplinary performance deterioration prediction of turbomachinery to optimize cleaning costs, decrease failure risk and promote the efficient use of water &energy resources. It targets the key challenges faced by industries, oil &gas refineries, utility companies in the adoption of circular maintenance. The study of AM is already part of CE curriculum, but the ambition of this postdoc is that also AM principles are applied and visible. Therefore, from the first year of the programme, the postdoc will develop an AM material science line and will facilitate applied research experiences for students, in collaboration with engineering companies, operation &maintenance contractors and governmental bodies. Consequently, a new generation of efficient sustainability sensitive civil engineers could be trained, as the labour market requires. The subject is broad and relevant for the future of our built environment being more sustainable with less CO2 footprint, with possible connections with other fields of study, such as Engineering, Economics &Chemistry. The project is also strongly contributing to the goals of the National Science Agenda(NWA), in themes of “Circulaire economie en grondstoffenefficiëntie”,”Meten en detecteren: altijd, alles en overall” &”Smart Industry”. The final products will be a framework for data-driven AM to determine and quantify key parameters of degradation in performance for predictive AM strategies, for the application as a diagnostic decision-support toolbox for optimizing cleaning &maintenance; a portfolio of applications &examples; and a new continuous learning line about AM within CE curriculum. The postdoc will be mentored and supervised by the Lector of AM research group and by the study programme coordinator(SPC). The personnel policy and job function series of HZ facilitates the development opportunity.
