Author supplied: Within the Netherlands the interest for sustainability is slowly growing. However, most organizations are still lagging behind in implementing sustainability as part of their strategy and in developing performance indicators to track their progress; not only in profit organizations but in higher education as well, even though sustainability has been on the agenda of the higher educational sector since the 1992 Earth Summit in Rio, progress is slow. Currently most initiatives in higher education in the Netherlands have been made in the greening of IT (e.g. more energy efficient hardware) and in implementing sustainability as a competence in curricula. However if we look at the operations (the day to day processes and activities) of Dutch institutions for higher education we just see minor advances. In order to determine what the best practices are in implementing sustainable processes, We have done research in the Netherlands and based on the results we have developed a framework for the smart campus of tomorrow. The research approach consisted of a literature study, interviews with experts on sustainability (both in higher education and in other sectors), and in an expert workshop. Based on our research we propose the concept of a Smart Green Campus that integrates new models of learning, smart sharing of resources and the use of buildings and transport (in relation to different forms of education and energy efficiency). Flipping‐the‐classroom, blended learning, e‐learning and web lectures are part of the new models of learning that should enable a more time and place independent form of education. With regard to smart sharing of resources we have found best practices on sharing IT‐storage capacity among universities, making educational resources freely available, sharing of information on classroom availability and possibilities of traveling together. A Smart Green Campus is (or at least is trying to be) energy neutral and therefore has an energy building management system that continuously monitors the energy performance of buildings on the campus. And the design of the interior of the buildings is better suited to the new forms of education and learning described above. The integrated concept of Smart Green Campus enables less travel to and from the campus. This is important as in the Netherlands about 60% of the CO2 footprint of a higher educational institute is related to mobility. Furthermore we advise that the campus is in itself an object for study by students and researchers and sustainability should be made an integral part of the attitude of all stakeholders related to the Smart Green Campus. The Smart Green Campus concept provides a blueprint that Dutch institutions in higher education can use in developing their own sustainability strategy. Best practices are shared and can be implemented across different institutions thereby realizing not only a more sustainable environment but also changing the attitude that students (the professionals of tomorrow) and staff have towards sustainability.
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Mixed Reality for THUAS campus Advantages of Mixed Reality for sustainable built environments 1. Incorporate BIM models in real time 2. Multi operator / for quick and easy consultation 3. Onsite ease of use / you can always put on your headset 4. Overlay capabilities of the Mixed Reality Headsets 5. Hand tracking 6. Layering information in real-time 7. 3D view of the location/situation / information 8. Switch from Mixed Reality to Virtual Reality 9. Teleport capabilities
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Speech by dr. Robert Baars at the official inauguration as Professor in Climate Smart Dairy Value Chains at Van Hall Larenstein University of Applied Sciences, 24th September 2021, Dairy Campus, Leeuwarden, The Netherlands.
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Contribution to conference magazine https://husite.nl/ssc2017/ Conference ‘Smart Sustainable Cities 2017 – Viable Solutions’ The conference ‘Smart Sustainable Cities 2017 – Viable Solutions’ was held on 14 June 2017 in Utrecht, the Netherlands. Over 250 participants from all over Europe attended the conference.
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Het aantal banen neemt toe. Jaarlijks ontstaan er volgens CBS (2019) ongeveer 900 duizend vacatures. Deze keer is de verandering op de arbeidsmarkt niet het resultaat van één enkele factor, maar eerder een combinatie van vijf factoren: snelle technologische vooruitgang, diepgaande veranderingen in gezondheid en demografie, een groeiende economie, toenemende globalisering en belangrijke maatschappelijke veranderingen - die samen een groot deel van wat we als vanzelfsprekend beschouwen, fundamenteel transformeren (Gratton, 2011). Digitalisering en automatisering spelen een grote rol bij deze veranderingen. Er zijn optimistische voorspellingen dat nieuwe technologieën de arbeidsmarkt ten goede komen. Technologie verlaagt bijvoorbeeld de werkdruk. We zouden door technologie zelfs naar een kortere werkweek kunnen en nieuwe banen erbij krijgen, zodat niemand ongewild zonder werk komt te zitten (Ford, 2015; Giang, 2015; Mahdawi, 2017; MGI, 2017). Echter, de angst dat automatisering banen over gaat nemen en er een tekort aan werk gaat ontstaan, is ook een veelgehoorde zorg (Alexis, 2017; Ford, 2015; Giang, 2015; MGI, 2017; WRR. 2013).
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From the list of content: " Smart sustainable cities & higher education, Essence: what, why & how? Developing learning materials together; The blended learning environment; Teaching on entrepreneurship; Utrecht municipality as a client; International results; Studentexperiences; International relations; City projects in Turku, Alcoy and Utrecht ".
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In ESSENCE (European Sustainable Solutions for Existing and New City Environments) "five European Higher Education Institutions and three municipalities worked together to train future professionals to overcome the complex challenges of achieving smart sustainable cities. Students worked on behalf of the three local governments on useful solutions to sustainability issues in the urban environment. New teaching methods were applied, such as blended learning and creative solution searching methods. "
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The objective of this book ‘An introduction to Smart Dairy Farming’ is to provide insight in the development of the Smart Dairy Farming (SDF) concept and advise as to how to apply this knowledge in the field of activities of students from universities of applied science. The information in this book includes background information and comprehensive insight in the concept of SDF.
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Powerpoint presentation used by Robert Baars at his inauguration on September 24, 2021 as lecturer 'Climate Smart Dairy Value Chains' at Van Hall Larenstein University of Applied Sciences.
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This booklet presents sixteen 'practice briefs' which are popular publications based on 12 Master and one Bachelor theses of Van Hall Larenstein University of Applied Sciences (VHL). All theses were commissioned through the research project entitled 'Inclusive and climate smart business models in Ethiopian and Kenyan dairy value chains (CSDEK)'. The objective of this research is to identify scalable, climate smart dairy business models in the context of the ongoing transformation from informal to formal dairy chains in Kenya and Ethiopia.
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