José Pinto Duarte is the Stuckeman Chair in Design Innovation and director of the Stuckeman Center for Design Computing (SCDC). An accomplished scholar with a record of innovative leadership, Duarte guides the ongoing research and direction of the SCDC.
After obtaining his doctoral degree from the Massachusetts Institute of Technology (M.I.T.), Duarte returned to Portugal where he helped launch groundbreaking, technology-oriented architecture degrees and programs at two different universities, as well as a digital prototyping and fabrication lab. Most recently, he served as dean of the Technical University of Lisbon School of Architecture.
Duarte has an impressive record of uniting academic research and industry, as well as fostering multi-national partnerships. He has served as president of eCAADe, a European association devoted to education and research in computer-aided architectural design. He also helped establish the M.I.T.–Portugal program, and created the Design and Computation research group, which boasts a strong record of interdisciplinary and collaborative research efforts funded by the Portuguese Foundation for Science and Technology and private companies.
Duarte’s scholarly work in his area of expertise, shape grammars, is considered to be among the most highly recognized in this field internationally. His dossier includes a remarkable 40 manuscripts in national and international peer-reviewed journals, nearly a third of which are sole authored. He has also authored 16 book chapters, 13 exhibitions, nine patents, and one software registration, among many other accomplishments. Duarte has been called, “a scholar and researcher of the highest distinction” by peers.
In the News
- Stuckeman School researchers awarded AIA grant for interdisciplinary research
- SCDC and SEDTAPP collaborate to host virtual symposium on design thinking
- Penn State team develops prototype for testing site protective booth
- Stuckeman Center for Design Computing to hold Flash Symposium
- Mars habitat 3-D printing team continues success in NASA competition
- Interdisciplinary team has breakthrough in latest phase of NASA’s 3D-Printed Habitat Challenge, finishes second