Conference proceedings International Symposium on Intelligent Manufacturing Environments
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Interview met Frank de Jong. Ecologisch intelligent handelen is nodig om actuele problemen in de wereld aan te pakken. Die los je niet op met bestaande denkwijzen en methoden, maar wel met kenniscreatie in dialoog met anderen. En daar ontbreekt het aan binnen het onderwijs. Het inzicht dat vraagstukken in samenhang moeten worden aangepakt, leidt ook tot een kritische reflectie op de inrichting van ontwerp- en bouwprocessen, waarbij opdrachtgevers en betrokken partijen vooral binnen bestaande kaders blijven werken.
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In an aging population, the prevalence of people with dementia is increasing. Intelligent environments can offer a solution to support people in the early stages of dementia, who often experience problems with maintaining their day-night rhythm. The focus of this work is developing an Intelligent Environment for assisting these people with their daily structure while living independently at home. Three co-creation methods with several stakeholder groups were used to elicit requirements and develop a prototype of an Intelligent Environment. Participants were involved in sessions using Mind Maps (N=55), Idea Generation Cards (N=35), and in a multidisciplinary design team with representatives of eight organizations. The result of these sessions was a set of 10 requirements for the Intelligent Environment on the following topics: context-awareness, pattern recognition, adaptation, support, personalization, autonomy, modularity, dementia proof interaction, costs, data and privacy. Based on these requirements, several scenarios were developed to explicate such an environment for supporting people with early dementia. The design team translated the requirements to a real-life prototype of an Intelligent Environment integrated into a demonstration home. The prototype serves as a basis for further development of Intelligent Environments to enable people with dementia to live longer independently at home.
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Intelligent internationalization, as outlined by Laura Rumbley in 2015, is a relevant notion to explore in specific institutional settings. The setting in this contribution is that of The Hague University of Applied Sciences (THUAS) and in order to understand intelligent internationalization in practice, the specific setting of the institution needs to be clarified first. The Hague, with its approximately 530,000 inhabitants, is not the capital of the Netherlands, but is the seat of government and therefore houses the parliament, ministries, embassies, and is also the residence of the royal house. The Hague has a long tradition as the host of international institutions. The 1899 and 1907 peace conferences were held in the city and the Peace Palace, opened in 1913, is home to the International Court of Justice (ICJ), the principal judicial organ of the United Nations and to the Permanent Court of Arbitration (PCA). Since 2002, The Hague also houses the International Criminal Court (ICC). The city thus provides a learning environment for all students (both domestic and international) at THUAS, not only through the internships that are a key component of all programs, but also through engagement with cultural organizations and local communities. The Hague University of Applied Sciences provides higher professional education to about 28,000 students, in more than 50 bachelor’s programs, as well as in a limited number of applied master’s programs. Nine programs are delivered in English. THUAS is an UNESCO institution and aims to be the most international university of applied sciences in the Netherlands by 2020, focusing on world citizenship skills, such as critical thinking, problem solving, and intercultural competence for all its students. THUAS’ student body is highly diverse with approximately 40% of its students having a non-Dutch background.
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Intelligent environments can offer support to people with early-stage dementia, who often experience problems with maintaining their circadian rhythm. The focus of this work is developing a prototype of an Intelligent Environment for assisting these people with their daily rhythm while living independently at home. Following the four phases of the Empathic Design Framework (Explore, Translate, Process, and Validate), the needs of people with dementia and their caregivers were incorporated into the design. In the exploration phase, a need assessment took place using focus groups (N=12), observations (N=10), and expert interviews (N=27). Then, to determine the requirements for a prototype of an intelligent environment, the second phase, Translate, used three co-creation sessions with different stakeholder groups. In these sessions, Mind Maps (N=55) and Idea Generation Cards (N=35) were used. These resulted in a set of 10 requirements on the following topics: context-awareness, pattern recognition, adaptation, support, personalization, autonomy, modularity, dementia proof interaction, costs, data, and privacy. Finally, in the third phase, the requirements were applied to a real-life prototype by a multidisciplinary design team of researchers, (E-Health) tech companies, designers, software engineers with representatives of eight organizations. The prototype serves as a basis for further development of Intelligent Environments to enable people with dementia to live longer independently at home.
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Door het expertiseteam Kennismanagement van de Afdeling onderwijs is in 2002 een notitie uitgegeven waarin het beleidskader voor kennismanagement in Fontys uitgewerkt is. Beschreven wordt wat de huidige en de wenselijke situatie met betrekking tot kennismanagement in Fontys is en welke acties ondernomen moeten worden op de middellange termijn.
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De maatschappelijke urgentie van vergroening is groot: het draagt bij aan biodiversiteit en klimaatadaptatie. Gemeente Eindhoven zet daarom in op vergroening, maar krijgt niet altijd de buurtbewoners mee. Hoe betrek je hen en maak je ze warm voor een groenere omgeving? Onderzoekers van Fontys Hogeschool en consortiumpartners onderzochten het in het KIEM GoCI-project Intelligent en participatief vergroenen.
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As Vehicle-to-Everything (V2X) communication technologies gain prominence, ensuring human safety from radiofrequency (RF) electromagnetic fields (EMF) becomes paramount. This study critically examines human RF exposure in the context of ITS-5.9 GHz V2X connectivity, employing a combination of numerical dosimetry simulations and targeted experimental measurements. The focus extends across Road-Side Units (RSUs), On-Board Units (OBUs), and, notably, the advanced vehicular technologies within a Tesla Model S, which includes Bluetooth, Long Term Evolution (LTE) modules, and millimeter-wave (mmWave) radar systems. Key findings indicate that RF exposure levels for RSUs and OBUs, as well as from Tesla’s integrated technologies, consistently remain below the International Commission on Non-Ionizing Radiation Protection (ICNIRP) exposure guidelines by a significant margin. Specifically, the maximum exposure level around RSUs was observed to be 10 times lower than ICNIRP reference level, and Tesla’s mmWave radar exposure did not exceed 0.29 W/m2, well below the threshold of 10 W/m2 set for the general public. This comprehensive analysis not only corroborates the effectiveness of numerical dosimetry in accurately predicting RF exposure but also underscores the compliance of current V2X communication technologies with exposure guidelines, thereby facilitating the protective advancement of intelligent transportation systems against potential health risks.
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