AntiStatics Architecture Co-Founder and Design Director

Professor in Practice, Cornell University Architecture Department

M.Arch University of Pennsylvania

BFA. University of Colorado

Martin Miller is an American architect, educator, and researcher renowned for his innovative integration of computational design, artificial intelligence, and digital fabrication in architecture. He serves as an Assistant Professor of the Practice in the Department of Architecture at Cornell University’s College of Architecture, Art, and Planning (AAP), where he teaches graduate studios and seminars focusing on advanced design technologies, including AI, simulation, and robotic fabrication. Martin Miller comes from a diverse background with training in architecture, art, science, and mathematics. His academic background encompasses a B.F.A. in Sculpture with a minor in Mathematics from the University of Colorado and a Master of Architecture from the University of Pennsylvania. His areas of expertise lie in parametric modeling, complex form rationalization and digital fabrication; especially in robotics and interactive design.

Martin Miller is also the co-founder and creative design director of AntiStatics Architecture, an international design studio based in Beijing and New York City. Established in 2010 alongside Mo Zheng, AntiStatics is recognized for its experimental approach to architecture, blending digital tools with material innovation. Notable projects include “MaoHaus,” a concrete façade in Beijing featuring embedded imagery; "Ido Wuhan Store" A sculptural retail space featuring the world's largest steel 3d print; "VICUTU Flagship Store" a retail space incorporating advanced fabrication techniques and assembly logics; and "The Infinite City" A winning proposal for the future capital city of Indonesia. Before founding AntiStatics with Mo Zheng, Martin was the lead designer and project manager for Jenny Sabin Studio.

 In 2018, Martin Miller was invited to give a special course on large-scale 3D printed concrete double curved surface and thin frame structure at the World Robotic Architecture Conference (ROB | ARC 2018) of the Federal Institute of Technology in Zurich, Switzerland (reported by several world-famous architectural media). His research and practice emphasize the manipulation and comprehension of complexity in architectural design, utilizing computational tools to explore spatial, structural, and cultural dimensions. Through his work, Miller continues to push the boundaries of architecture, seeking novel solutions to complex design challenges.