This image shows Fabian Kannenberg

Fabian Kannenberg

M.Sc.

Research Associate

Contact

Stuttgart
Deutschland

Menges, A., Kannenberg, F., Zechmeister, C.: 2022, Computational co-design of fibrous architecture. Architectural Intelligence, 1 (1), 6. (DOI: 10.1007/s44223-022-00004-x)

Nguyen, L., Schwinn, T., Groenewolt, A., Maierhofer, M., Zorn, M. B., Stieler, D. Siriwardena, L., Kannenberg, F., Menges, A.: 2022, ABxM.Core: The Core Libraries of the ABxM Framework. (DOI: 10.18419/darus-2994

Stieler, D., Schwinn, T., Leder, S., Maierhofer, M., Kannenberg, F., Menges, A.: 2022, Agent-based modeling and simulation in architecture. Automation in Construction, 141, 104426. (DOI: 10.1016/j.autcon.2022.104426)

Abdelaal, M., Amtsberg, F., Becher, M., Duque Estrada, R., Kannenberg, F., Sousa Calepsa, A., Wagner, H. J., Reina, G., Sedlmair, M., Menges, A., Weiskopf, D.: 2022, Visualization for Architecture, Engineering, and Construction: Shaping the Future of Our Built World. IEEE Computer Graphics and Applications, 42 (2), pp. 10-20. (DOI: 10.1109/MCG.2022.3149837)

Gil Pérez, M., Zechmeister, C., Kannenberg, F., Mindermann, P., Balangé, L., Guo, Y., Hügle, S., Gienger, A., Forster, D., Bischoff, M., Tarín, C., Middendorf, P., Schwieger, V., Gresser, G. T., Menges, A., Knippers, J.: 2022, Computational co-design framework for coreless wound fibre–polymer composite structures. Journal of Computational Design and Engineering, 9(2), pp. 310–329. (DOI: 10.1093/jcde/qwab081)

Dambrosio, N., Zechmeister, C., Duque Estrada, R., Kannenberg, F., Gil Pérez, M., Schlopschnat, C., Rinderspacher, K., Knippers, J., Menges, A.: 2021, Design and development of an FRP-Timber hybrid building system for multi-story applications in architecture: Maison Fibre. In ACADIA - Realignments: Toward Critical Computation [Proceedings of the ACADIA Conference 2021].

Born, L., Möhl, C., Kannenberg, F., Melnyk, S., Jonas, F. A., Menges, A., Knippers, J., Gresser, G. T.: 2021, Semi-automated braiding of complex, spatially branched FRP-structures. Composite Structures (276), 114551. (DOI: 10.1016/j.compstruct.2021.114551)

Duque Estrada, R., Kannenberg, F., Wagner, H. J., Yablonina, M., Menges, A.: 2021, Integrative Design Methods for Spatial Winding, in Bavarel, O., Douthe, C., Mesnil, R., Mueller, C., Pottmann, H., Tachi, T. (eds.), Advances in Architectural Geometry 2020, Presses des Ponts, Paris, pp. 286-305. (ISBN: 978-2-85978-540-6)

Duque Estrada, R., Kannenberg, F., Wagner, H. J., Yablonina, M., Menges, A.: 2020, Spatial Winding: Cooperative Heterogeneous Multi-Robot System for Fibrous Structures, Construction Robotics (4), pp. 205-215. (DOI: 10.1007/s41693-020-00036-7)

Fabian Kannenberg is a research associate at the Institute for Computational Design and Construction (ICD) at the University of Stuttgart, where he also received his Master of Science in Architecture from the Integrative Technologies and Architectural Design Research (ITECH) program at the University of Stuttgart.

For his master's thesis on cooperative spatial winding of fiber composite structures, which he developed together with his colleague Rebeca Duque Estrada, he received a scholarship for a research residency at the Autodesk Technology Center Boston and a Lightweight Structures Award.

His current research at ICD is affiliated with the Cluster of Excellence Integrative Computational Design and Construction for Architecture (IntCDC). Within this framework, he develops computational design methods for high-performance fiber composite building systems.

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Institute for Computational Design and Construction

University of Stuttgart, Keplerstraße 11, 70174 Stuttgart

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