Currently, Rusne Sileryte is a PhD candidate at the chair of Environmental Technology and Design. In 2015, she has a research position at the chair of Design Informatics. Her main contributions as a member of Design Informatics has been development of customized tools for the M-MDO of sports buildings, specifically focused on setting up database and its connection with 3D modelling, simulation and ModeFRONTIER design optimization software for exploring vast numbers of design alternatives and supporting the early stages of design. Additionally she has been involved in coupling Grasshopper with EnergyPlus, CONTAM and Radiance for building performance evaluation and rapid estimation. Having background in Architecture and further education as a Geomatics Engineer, Rusne is mostly interested in working on projects that involve dealing with large spatial data, representation of complex geometries, creating data structures and automating various analysis procedures both in small scale architectural and large scale urban projects as long as they aim to improve health and livability in built environments. Before coming to TU Delft, she has been studying in Vilnius Gediminas Technical University and University of Florence, and has been working as a researcher at the University of Lisbon.
PUBLICATIONS with Design Informatics:
1. Sileryte R., Nourian P., Van der Spek S. (2016). Modelling Spatial Patterns of Outdoor Physical Activities Using Mobile Sports Tracking Application Data. Tapani Sarjakoski, Maribel Yasmina Santos, L. Tiina Sarjakoski. Geospatial Data in a Changing World. Part III. pp 179-197. Springer International Publishing. ISBN 978-3-319-33783-8. DOI 10.1007/978-3-319-33783-8_11.
2. Turrin, M., Yang, D., D’Aquilio, A., Sileryte, R., & Sun, Y. (2016). Computational Design for Sport Buildings. Procedia Engineering, 147, 878–883. http://doi.org/http://dx.doi.org/10.1016/j.proeng.2016.06.285
3. Sileryte R., D’Aquilio A., Yang D., Turrin M. (2016). Supporting Exploration of Design Alternatives using Multivariate Analysis Algorithms. SimAUD '16: Proceedings of the Symposium on Simulation for Architecture & Urban Design. URL http://www.simaud.org/proceedings/ (ASAP at ACM digital library)
4. D’Aquilio A., Sileryte R., Yang D., Yimin S., Turrin M. (2016). Simulating natural ventilation in large sports buildings: prediction of temperature and airflow patterns in the early design stages. SimAUD '16: Proceedings of the Symposium on Simulation for Architecture & Urban Design. URL http://www.simaud.org/proceedings/ (ASAP at ACM digital library)
5. Yang D., Sun Y., Sileryte R., D’Aquilio A., Turrin M. (2016). Application of Surrogate Models for Building Envelope Design Exploration and Optimization. SimAUD '16: Proceedings of the Symposium on Simulation for Architecture & Urban Design. URL http://www.simaud.org/proceedings/ (ASAP at ACM digital library)
Faculty of Architecture and the Build Environment
2628 BL Delft