WS12026MSc2: Difference between revisions
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=='''FRAMEWORK'''== | =='''FRAMEWORK'''== | ||
2026 the focus is on an extreme environment, Antarctica, where conditions include extremely cold, dry, and windy polar desert characterized by severe temperatures (ranging from -80 to -20), strong katabatic winds, minimal precipitation, and very low humidity; extreme light cycles with months of continuous daylight or darkness, high UV exposure, reduced oxygen levels. | |||
Ideas, concepts, and designs are tested in numerical and/ or physical protoypes in the Robotic Building lab equipped amongst others with computational tools linking to the KUKA robotic arm and other sensor-actuator systems. Depending on the within the workshop selected application, questions of circular and sustainable design are addressed with consideration to in-situ resource utilization. | Ideas, concepts, and designs are tested in numerical and/ or physical protoypes in the Robotic Building lab equipped amongst others with computational tools linking to the KUKA robotic arm and other sensor-actuator systems. Depending on the within the workshop selected application, questions of circular and sustainable design are addressed with consideration to in-situ resource utilization. | ||
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Revision as of 13:50, 30 January 2026
Workshop MSc 2 2026:
The Interactive Architecture Prototypes (IAP) workshop focuses on skill building in Artificial Intelligence (AI) supported Design-to-Robotic-Production and -Operation (D2RP&O) methods for the development of architectural hybrid assemblies ranging from micro levels, as material systems, to meso and macro levels as building components and buildings. In this context, hybrid assemblies will be explored by designing and robotically producing and/ or operating a structure that consists of various components assembled into an integrated larger whole.
FRAMEWORK
2026 the focus is on an extreme environment, Antarctica, where conditions include extremely cold, dry, and windy polar desert characterized by severe temperatures (ranging from -80 to -20), strong katabatic winds, minimal precipitation, and very low humidity; extreme light cycles with months of continuous daylight or darkness, high UV exposure, reduced oxygen levels.
Ideas, concepts, and designs are tested in numerical and/ or physical protoypes in the Robotic Building lab equipped amongst others with computational tools linking to the KUKA robotic arm and other sensor-actuator systems. Depending on the within the workshop selected application, questions of circular and sustainable design are addressed with consideration to in-situ resource utilization.
PRECEDENTS
APPROACH
DELIVERABLES
COORDINATORS & TUTORS
Henriette Bier, Arwin Hidding, Lisa-Marie Mueller & Vera Laszlo (ABE)
DOCUMENTS
Schedule: https://docs.google.com/spreadsheets/d/1wdQEvPvv7gUu-ZV9XkEZfpRcdz9t13LKzSTBah937-0/edit
Brief: https://docs.google.com/document/d/1lwgkOkwLq_MkuHcLVb7TmrxsUspAnb1R3pm0jOyIj8c/edit
Student list: https://docs.google.com/spreadsheets/d/1AOVUd0Er4L60kd4_d7-1HiplAooonuL7gRpy7-E8srU/edit
