We are a science- and technology-based enterprise dedicated to researching and developing robotic solutions for the creative, construction, and manufacturing industries.
Services
Offline programming of industrial robots
Consulting on robot cell and tooling design
Consulting on human-robot collaborative workstation design
Robotic machining programming for mortise-and-tenon timber joinery
Research and experimental development in architecture, engineering, design, and art
US20250058473A1
Carpentry tool for human-robot collaborative stereotomy using a collaborative industrial robot system controlled by artificial vision capabilities that locates, recognises and executes machining instructions hand-drawn by a carpenter on a work piece, and operating method.
Assignee
Universidad Técnica Federico Santa María
CL70349
Celda robotizada móvil para fabricar piezas impresas en obra, con eje de desplazamiento circular; método.
Assignee
Universidad Técnica Federico Santa María
CL70348
Celda para fabricación de piezas impresas con ductos verticales preinstalados, con columnas telescópicas; método
Assignee
Universidad Técnica Federico Santa María
CL70347
Celda para la fabricación de piezas y recintos impresos en obra; método.
Assignee
Universidad Técnica Federico Santa María
US12158015B2
Walking robotic cell for the manufacture of buildings printed on site by means of a multi-axis 3D printing system; and method of operation.
Assignee
Universidad Técnica Federico Santa María
CL70079
Herramienta de carpintería para la estereotomía colaborativa humano-robot; y método de operación.
Assignee
Universidad Técnica Federico Santa María
CL66446
Sistema y método de encofrado automático para piezas de hormigón o material similar mediante moldes flexibles.
Assignee
Universidad Técnica Federico Santa María
US11639012B2
Automatic formwork system and method for flexible elastic membrane moulds.
Assignee
Universidad Técnica Federico Santa María
US10464229B2
Device for cutting volumes of expanded polystyrene foam or similar, producing double-curvature surfaces.
Assignee
Universidad Técnica Federico Santa María
CL50415
Aparato que simula la orientación espacial de un edificio respecto del sol para estimar el área de captación solar directa, que comprende una plataforma con una maqueta de edificio, una estructura circular, un arco graduado, un arco con una unidad captadora de imágenes y un microprocesador para almacenarlas; y método asociado.
Assignee
Universidad Técnica Federico Santa María
United by science, jointly advancing innovation
In collaboration with leading firms in heritage restoration, technological innovation, and applied robotics, we deliver integrated solutions that support the industrialisation of construction through the design, prototyping, and implementation of technologies designed to enhance and transform production processes across the sector.
Luis Felipe González-Böhme is an architect graduated from the Pontificia Universidad Católica de Chile; he was a Research Scientist and Teaching Assistant at the Chair Computer Science in Architecture at the Bauhaus-University Weimar and has served as Head of the Department of Architecture at Universidad Técnica Federico Santa María. As a co-founder and CEO of Mylodon Robotics, he contributes his experience and vision to Chile’s pioneering development of robotic timber joinery and human–robot collaboration in industrialized timber construction. He is currently Associate Professor at Universidad Técnica Federico Santa María, Chile.
lfgonzalez@mylodonrobotics.cl
lfgonzalez@mylodonrobotics.cl
Francisco Javier Quitral Zapata is an architect graduated from Universidad Técnica Federico Santa María and a doctoral candidate at the Universidad del Bío-Bío. For ten years, he has served as a researcher and lecturer in the Department of Architecture at the Universidad Técnica Federico Santa María, with experience in computational design, digital fabrication, and robotic timber construction. As a co-founder and CPO of Mylodon Robotics, he contributes expert knowledge in industrial robot programming and workflows for human-robot collaboration. He is currently an academic at Universidad Técnica Federico Santa María.
fquitral@mylodonrobotics.cl
fquitral@mylodonrobotics.cl
Chief Technology Officer
Cristián Javier Calvo-Barentin is an architect graduated from Universidad Técnica Federico Santa María, holds a PhD from ETH Zürich, and completed a postdoctoral fellowship at the Massachusetts Institute of Technology. He has been a researcher and lecturer at leading institutions such as MIT and the University of Sheffield, focusing on computational design, digital fabrication, and advanced technologies applied to architecture, engineering, and construction. As a co-founder and CTO of Mylodon Robotics, he contributes his expertise in structural design and the development of low environmental impact construction systems. He is currently Assistant Professor at the Pontificia Universidad Católica de Chile.
ccalvo@mylodonrobotics.cl
© Mylodon Robotics SpA. 2026.
Concón, Valparaíso Region, Chile.