Biography

Dr. Wilfred van der Vegte (Wilhelm Frederik van der Vegte)

Delft University of Technology, The Netherlands

Assistant Professor


Email: [email protected]


Qualifications

2009 Ph.D., Engineering Sciences, Delft University of Technology, The Netherlands

1992 Master, Technological Design, Design of Consumer Products and Professional Products, Delft University of Technology, The Netherlands

1989 M.Sc. (equivalent), Mech. Eng., Twente University, The Netherlands


Publications (Selected)

  1. Xu, H., Gielen, M., & van der Vegte, W. F. (2025). A Framework for Digital Technology to Foster Intergenerational Bonds at Home. In Intelligent Human Computer Interaction: 16th International Conference, IHCI 2024 (Revised Selected Papers, Part II ed., pp. 215–228).
  2. Meijer, W., Bourgeois, J., van der Vegte, W. F., & Kortuem, G. (2024). Sphere Window: Challenges and Opportunities of 360° Video in Collaborative Design Workshops. In NordiCHI '24: Proceedings of the 13th Nordic Conference on Human-Computer Interaction, NordiCHI 2024 Article 71 (ACM International Conference Proceeding Series). Association for Computing Machinery (ACM).
  3. Vroom, RW., & van der Vegte, WF. (2021). Design of Information-Intensive Systems Involving Cognitive Aspects: An Emerging Opportunity for Transdisciplinary Cooperation. In L. Blessing, A. J. Qureshi, & K. Gericke (Eds.), The Future of Transdisciplinary Design: Proceedings of the international workshop on the future of transdisciplinary design TFTD'13 (pp. 41-53).
  4. van der Vegte, W. F., Kurt, F., & Şengöz, O. K. (2019). Simulations based on product-usage information from connected products to support redesign for improved performance: exploration of practical application to domestic fridge-freezers. Journal of Computing and Information Science in Engineering19(3), 031003.
  5. Klein, P., van der Vegte, W. F., Hribernik, K., & Klaus-Dieter, T. (2019, July). Towards an approach integrating various levels of data analytics to exploit product-usage information in product development. In Proceedings of the Design Society: International Conference on Engineering Design (Vol. 1, No. 1, pp. 2627-2636).
  6. van der Vegte, W. F., Kurt, F., & Şengöz, O. K. (2018, August). Simulation of product performance based on real product-usage information: first results of practical application to domestic refrigerators. In International Design Engineering Technical Conferences and Computers and Information in Engineering Conference (Vol. 51739, p. V01BT02A005). American Society of Mechanical Engineers.
  7. Li, D., van der Vegte, W. F., Geuze, M., van der Meijs, M., & Mastrigt, S. H. V. (2018, August). Studying a new embarking and disembarking process for future hyperloop passengers. In Congress of the International Ergonomics Association (pp. 217-229).
  8. Horváth, I., Li, Y., Rusák, Z., van der Vegte, W. F., & Zhang, G. (2017). Dynamic computation of time-varying spatial contexts. Journal of Computing and Information Science in Engineering17(1), 011007.
  9. van der Vegte, W. F. (2016, August). Taking advantage of data generated by products: trends, opportunities and challenges. In International Design Engineering Technical Conferences and Computers and Information in Engineering Conference (Vol. 50084, p. V01BT02A025).
  10. Rusák, Z., van de Water, N., de Smit, B., Horváth, I., & Van Der Vegte, W. F. (2016, August). Smart reading aid for detecting problems with reading fluency and comprehension. In International Design Engineering Technical Conferences and Computers and Information in Engineering Conference (Vol. 50084, p. V01BT02A039). American Society of Mechanical Engineers.
  11. Horváth, I., Li, Y., Rusák, Z., Van Der Vegte, W. F., & Zhang, G. (2016, August). Dynamic spatial context computation for time-varying process scenarios. In International Design Engineering Technical Conferences and Computers and Information in Engineering Conference (Vol. 50077, p. V01AT02A002).
  12. Rendon-Velez, E., Van Leeuwen, P. M., Happee, R., Horvath, I., Van der Vegte, W. F., & de Winter, J. C. (2016). The effects of time pressure on driver performance and physiological activity: A driving simulator study. Transportation research part F: traffic psychology and behaviour41, 150-169.
  13. Hribernik, K., van der Vegte, W. F., Kiritsis, D., & Thoben, K. D. (2016, June). Towards a methodology for selecting product usage information sources for the (re-) design of product service systems. In 2016 International Conference on Engineering, Technology and Innovation/IEEE lnternational Technology Management Conference (ICE/ITMC) (pp. 1-6). IEEE.
  14. Li, Y., Horvath, I., Rusak, Z., van der Vegte, W., & Zhang, G. (2016). Conceptualization of a real-time information processing platform for context-aware informing Cyber-Physical Systems. In TMCE 2016: Eleventh International Symposium on Tools and Methods of Competitive Engineering (pp. 53-65).
  15. Vroom, R. W., & van der Vegte, W. F. (2021, January). Design of information-intensive systems involving cognitive aspects: an emerging opportunity for transdisciplinary cooperation. In The Future of Transdisciplinary Design: Proceedings of the Workshop on “The Future of Transdisciplinary Design”, University of Luxembourg 2013 (pp. 41-53).
  16. Keenaghan, G. (2015). Developing an Edugame Simulation Application for Engineering It Works in Practice, But Will it Work in Theory?. Level 312(1), 6.
  17. Van der Vegte, W. F., & Rusák, Z. (2014). Bulk simulation of physics and interaction aspects of products: formal underpinnings and proof-of-concept implementation. Journal of Design Research 912(1-2), 97-126.
  18. Van der Vegte, W. F., & Vroom, R. W. (2013). Considering cognitive aspects in designing cyber-physical systems: an emerging need for transdisciplinarity. In Proceedings of the international workshop on the future of transdisciplinary design TFTD (Vol. 13, pp. 41-52).
  19. van der Vegte, W. F., & Moes, N. C. (2012, August). Towards improved user-product testing with cognitively enhanced scenarios. In International Design Engineering Technical Conferences and Computers and Information in Engineering Conference (Vol. 45011, pp. 681-687).
  20. van der Vegte, W. F., & Horváth, I. (2012). Theoretical underpinning and prototype implementation of scenario bundle-based logical control for simulation of human–artifact interaction. Computer-Aided Design, 44(8), 791-809.




Profile Details

https://scholar.google.com/citations?user=JHwIsbYAAAAJ&hl=en

https://www.researchgate.net/profile/Wilhelm-Van-Der-Vegte

https://www.tudelft.nl/en/staff/w.f.vandervegte/

https://orcid.org/0000-0002-8121-7644


WoS Researcher ID: B-5552-2008

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