This course focuses on the semester-long collaborative design and robotic fabrication of a pedestrian bridge at 1:10 scale. Students are given a proposed location in New Haven with inherent site constraints, and they work in teams, each responsible for a specific aspect of the design-to-fabrication process. The course covers YSOA robotics safety training, bridge design principles, hands-on robotic programming, and documenting robotic design-fabrication processes. Students explore form optimization and structural analysis tools to aid in influencing their design decisions. Throughout the course, students engage in critical thinking and problem-solving exercises, fostering a deeper understanding of the integration of robotics in architecture. The final project involves synchronously fabricating an eight-foot-long model of a pedestrian bridge using one ABB 1200 robot along with six ABB 120 robots in a collaborative setup. In this fully automated fabrication and assembly process, the bridge is primarily constructed from wooden elements and wood-based 3D printed parts. This hands-on experience prepares students to become leaders in the field of robotic fabrication and innovative architectural design.