Information Technology
Our mission is to advance the field of smart systems engineering and informatics through education, research, and collaboration. We conduct cutting-edge research that pushes the boundaries of knowledge and addresses real-world challenges in food and health, business, and society. We work closely with industry, government, and other academic institutions to create a vibrant ecosystem of innovation, where our ideas can have a tangible impact on people's lives.
Latest publications
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Dynamic climate control, an optimization study for earliness of cucumber production
Scientia Horticulturae (1984), Volume: 23 - ISSN 0304-4238 - p. 137-150. -
Landscape computer applications in The Netherlands
Journal of the Landscape Institute (1984), Volume: 6 - p. 46-46. -
Fenomenologische opmerkingen over metingen van hersenmechanismes van visuele aandacht
Algemeen Nederlands Tijdschrift voor Wijsbegeerte (1984), Volume: 76 - ISSN 0002-5275 - p. 69-82. -
A practical tracer gas method to determine ventilation in greenhouses
Journal of Agricultural Engineering Research (1985), Volume: 31 - ISSN 0021-8634 - p. 309-319. -
Modelling and simulation in greenhouse climate control
Acta Horticulturae (1985), Volume: 174 - ISSN 0567-7572 - p. 461-467. -
Advances in greenhouse climate control
Acta Horticulturae (1985), Volume: 174 - ISSN 0567-7572 - p. 361-363.
Vacancy
Education
We offer a variety of courses at BSc and MSc level that are taken by students from all study programmes of Wageningen University & Research. The courses are aligned to our overall objective for realizing smart system engineering. In parallel with our courses we offer interesting MSc and BSc thesis assignments. Further, we have an active PhD programme in which research is carried out in close collaboration with the life sciences application domains.
Research
We adopt a holistic, multidisciplinary, and interdisciplinary approach to our work, with the aim of integrating data, software, hardware, people, and processes within the organizational, institutional, and societal context. We recognize that this approach is inherently complex, given the unpredictable behavior and interaction of system components in their environment. To address this challenge, we focus on several important generic and applied research themes.