By 2050, 70% of the world population will live in cities. Today already 50% live in an urban environment and produce more than 75% of all C02 emissions. Finding intelligent and efficient ways to provide for more people with fewer resources will make cities more resilient to manmade and natural disasters and reduce their impact on the environment. Our long-term research goal is to transform the engineering design framework for a future-oriented built urban environment. Our research program addresses the following two core questions: What is the relationship between form and efficiency in civil structures?; and With increasing pressure on the preservation of natural resources, how can design theories and tools match untested sculptural ideas to material-efficient, constructible structures?
Please feel free to get in touch if you are interested in pursuing collaboration.
Prof. S. Adriaenssens
Department of Civil and Environmental Engineering
Together with Prof. Boyer at the School of Architecture, we will start tackling noise pollution in urban areas through a Princeton Environmental Institute grant.Read more
This paper presents some of the scholarship we carry out with Rome Tre University and the American University of Cairo S. Abdelmohsen, S. Adriaenssens, R. El-Dabaa, S. Gabriele, L. Olivieri, L. Teresi, L., “Programmable matter: A multi-physics modeling approach for low-tech architectural adaptive systems using hygroscopic properties of wood,” Computer-Aided Design, https://doi.org/10.1016/j.caRead more
We are delighted to have been awarded this ERC Planning Grant by the National Science Foundation.Read more
We are co-organizing the IASS 2018: Creativity in Structural Design symposium at MIT (16- 20th July) . We are presenting, discussing, chairing sessions and networking about our work about adaptive structures, net and membrane structures and shells. If you are around, come and say hi!Read more
We were invited to the IABSE Henderson colloquium at Christ Church College, Cambridge, UK to discuss as to the how and why of adaptive infrastructure (July 2 - 4th 2018). The future of cities lies there.Read more
Our work on cables and nets subjected to wavebreak loading is here A. Niewiarowski, S. Adriaenssens, R.M.O. Pauletti, K. Addi, L. Deike, ‘Modeling underwater cable structures subject to breaking waves ‘, Ocean Engineering, vol. 64, 15, pp. 199-211.https://doi.org/10.1016/j.oceaneng.2018.06.013Read more
L. Coar, M. Cox, S. Adriaenssens, ‘Seeking congruency in digital optimization and constructability in fabric formed ice shells utilizing bending active frames’, International Journal of Rapid Manufacturing, vol. 7, 2-3, pp. 186-202.Read more
D. Fang, R. Napolitano, T. Michiels, S. Adriaenssens, ‘Assessing the Stability of Unreinforced Masonary Arches and Vaults: A Comparison of Analytical and Numerical Strategies’, Journal of Architectural Heritage, doi: 10.1080/15583058.2018.1463413, 2018Read more
We are super happy to our proposal to generate new knowledge of how systems can be engineered to be not only efficient and economic, but also be perceived as being esthetic, has been funded by the Council for Science and Technology. This research project is the first collaboration between the research groups of Prof. Adriaenssens and Prof. Todorov (Department of Psychology PSY).Read more
Prof. Adriaenssens will be awarded the 2018 American Society of Civil Engineers George Winter Award at the ASCE Structures Conference in Fort Worth, Texas. This award is important to us as it recognises the value of the integration of engineering and art in our work.Read more