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Fingerprint Fingerprint is based on mining the text of the experts' scientific documents to create an index of weighted terms, which defines the key subjects of each individual researcher.

Footbridges Engineering & Materials Science
Arches Engineering & Materials Science
Shape optimization Engineering & Materials Science
Structural optimization Engineering & Materials Science
Form-finding Mathematics
Structural design Engineering & Materials Science
Cables Engineering & Materials Science
Textiles Engineering & Materials Science

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Research Output 2001 2019

A multi-physics approach for modeling hygroscopic behavior in wood low-tech architectural adaptive systems

Abdelmohsen, S., Adriaenssens, S. M., El-Dabaa, R., Gabriele, S., Olivieri, L. & Teresi, L., Jan 1 2019, In : CAD Computer Aided Design. 106, p. 43-53 11 p.

Princeton University

Research output: Contribution to journalArticle

Adaptive systems
Wood
Physics
Swelling
Intelligent materials

Form finding of corrugated shell structures for seismic design and validation using non-linear pushover analysis

Michiels, T., Adriaenssens, S. M. & Dejong, M., Feb 15 2019, In : Engineering Structures. 181, p. 362-373 12 p.

Princeton University

Research output: Contribution to journalArticle

Seismic design
Nonlinear analysis
Earthquakes
Conceptual design
Geometry
1 Citations

Assessing the stability of unreinforced masonry arches and vaults: a comparison of analytical and numerical strategies

Fang, D. L., Napolitano, R. K., Michiels, T. L. & Adriaenssens, S. M., May 17 2018, (Accepted/In press) In : International Journal of Architectural Heritage. p. 1-15 15 p.

Princeton University

Research output: Contribution to journalArticle

Arches
Friction
Jetties
Geometry
Masonry
5 Citations

Form-finding algorithm for masonry arches subjected to in-plane earthquake loading

Michiels, T. & Adriaenssens, S. M., Jan 15 2018, In : Computers and Structures. 195, p. 85-98 14 p.

Princeton University

Research output: Contribution to journalArticle

Form-finding
Masonry
Arch
Arches
Earthquake

Modeling underwater cable structures subject to breaking waves

Niewiarowski, A., Adriaenssens, S. M., Pauletti, R. M., Addi, K. & Deike, L., Sep 15 2018, In : Ocean Engineering. 164, p. 199-211 13 p.

Princeton University

Research output: Contribution to journalArticle

Cables
Hydrodynamics
Time domain analysis
Enclosures
Software packages