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Cambridge Global Food Security

An Interdisciplinary Research Centre at the University of Cambridge

Studying at Cambridge


Dr Fumiya Iida

Dr Fumiya Iida

University Lecturer in Mechatronics, Department of Engineering (Machine Intelligence Laboratory)

Office Phone: 01223 332719


Fumiya Iida received his bachelor and master degrees in mechanical engineering at Tokyo University of Science (Japan, 1999), and Dr. sc. nat. in Informatics at University of Zurich (2006). In 2004 and 2005, he was also engaged in biomechanics research of human locomotion at Locomotion Laboratory, University of Jena (Germany). From 2006 to 2009, he worked as a postdoctoral associate at the Computer Science and Artificial Intelligence Laboratory, Massachusetts Institute of Technology in USA. In 2006, he was awarded the Fellowship for Prospective Researchers from the Swiss National Science Foundation, and in 2009, he was appointed as a Swiss National Science Foundation Professor for bio-inspired robotics at ETH Zurich. His research interests include biologically inspired robotics, embodied artificial intelligence, and biomechanics, and he has been involved in a number of research projects related to dynamic legged locomotion, navigation of autonomous robots, and human-machine interactions. He has so far published over forty publications in major robotics journals and conferences, and edited two books. Currently he serves on the editorial board of the Journal of Intelligent & Robotic Systems and Frontiers in Neuroscience (Neurorobotics), and as a program committee member for international conferences and workshops. In addition, he has organized a few seminal meetings such as the International Conference of Morphological Computation and International Seminar of Embodied Artificial Intelligence.

Departments and Institutes

Department of Engineering:

Research Interests

The research interests of the Cambridge Robotics Lab lie at the intersection of robotics and biology. Through abstraction of the design principles of biological systems, we develop core competences which are the rapid prototyping of dynamic mechatronics systems, bionic sensor and motor technologies, and computational control optimization techniques. Our main goals are to contribute to a deeper understanding of adaptivity and autonomy of animals, and to engineer novel robotic applications which are more adaptive, resilient, and energy efficient. Specific research topics include legged robot locomotion, evolutionary robotics, human-robot interactions, and embodied artificial intelligence.