This course explores how robots perceive, map, and navigate physical environments, emphasizing the technologies and decision-making processes involved. Students will examine a range of sensors,...
This course explores how robots perceive, map, and navigate physical environments, emphasizing the technologies and decision-making processes involved. Students will examine a range of sensors, spatial mapping systems, and path planning algorithms, all within the context of architecture and the built environment. The course also addresses how robots operate safely and intelligently in human-occupied spaces.
This course introduces students to simulation and visualization tools used in robotic design, with an emphasis on architectural integration and façade systems. Using The Construct platform alongside...
This course introduces students to simulation and visualization tools used in robotic design, with an emphasis on architectural integration and façade systems. Using The Construct platform alongside Rhino and Grasshopper, students will explore how digital environments can support robotic workflows, generative design, and speculative futures in spatial practice. The course covers simulation fundamentals, parametric integration, digital twins, and the role of robotics in architectural...
This course introduces students to robotics through historical, theoretical, and construction-based lenses. Students gain foundational knowledge of robot types, automation, digital fabrication, and...
This course introduces students to robotics through historical, theoretical, and construction-based lenses. Students gain foundational knowledge of robot types, automation, digital fabrication, and the ethical implications of robotics in the built environment. The course emphasizes real-world applications in construction and spatial design, including robotic arms, mobile platforms, and autonomous systems. Through readings, short essays, and case study analysis, students will critically examine...