Susumu Tachi, Ph.D.
Professor Emeritus The University of Tokyo
E-mail: tachi [at] tachilab.org
Please refer to the following book for more detail:Susumu Tachi: Telexistence 2nd Edition, World Scientific, ISBN 978-981-4618-06-9.
Susumu Tachi was born in Tokyo, Japan, on January 1, 1946. He received his B.E., M.S., and Ph.D. degrees in mathematical engineering and information physics from the University of Tokyo in 1968, 1970, and 1973, respectively.
He joined the Faculty of Engineering of the University of Tokyo in1973, and in 1975, he moved to the Mechanical Engineering Laboratory, Ministry of International Trade and Industry, Tsukuba Science City, Japan, where he served as the Director of the Biorobotics Division. In 1989, he rejoined the University of Tokyo, and served as a Professor at the Department of Information Physics and Computing till March 2009. In April 2009, he moved to Keio University, where he served as a Professor of Graduate School of Media Design and the Director of the International Virtual Reality Center till March 2015. Prof. Tachi was conferred Professor Emeritus of The University of Tokyo in June 2009. He is currently continuing his research on virtual reality, human augmentation and telexistence at Tachi Laboratory, Institute of Gerontology, The University of Tokyo.
From 1979 to 1980, Dr. Tachi was a Japanese Government Award Senior Visiting Scientist at the Massachusetts Institute of Technology, Cambridge, USA.
One of his scientific achievements is the invention and development of an intelligent mobile robot system for the blind called Guide Dog Robot (1976-1983), which is the first of its kind. This system is known as MELDOG.
In 1980, Dr. Tachi proposed the concept of telexistence, which enables a highly realistic sensation of existence in a remote place without any actual travel. Telexistence is a fundamental concept that refers to the general technology that allows a human being to have a real-time sensation of existing in a place other than where he/she actually exists and to interact with the remote environment, which may be real, virtual, or a combination of both. It also refers to an advanced type of teleoperation system that enables an operator at the controls to perform remote tasks dexterously with the feeling of existing in a surrogate robot working in a remote environment. Telexistence in the real environment through a virtual environment is also possible.
Telexistence became the fundamental guiding principle of the eight-year Japanese National Large Scale Project, "Advanced Robot Technology in Hazardous Environments (1983-1990)." Through this project, he made theoretical considerations, established systematic design procedures, developed experimental hardware telexistence systems such as TELESAR, and demonstrated the feasibility of the concept.
Prof. Tachi led several large projects, which include National Study on a Priority Scientific Area of Virtual Reality (Fundamental Study on Virtual Reality: Generation of Virtual Space and Human Interfaces for Virtual Environments) (1995-1999) as the project leader, National Large Scale Project on Humanoids and Human Friendly Robotics (HRP) (1998-2003) as the project sub-leader, CREST Project on Telexistence Communication Systems (2000-2006) as the research director, and CREST Project on Haptic Media (2009-2015) as the research director. He is currently leading ACCEL project on Embodied Media (2014- ) as the research director.
His present research encompasses robotics, augmented reality, virtual reality, and haptics with special focus on Mutual Telexistence using retro-reflective projection technology (RPT). He developed a mutual telexistence system TELESAR II, which can generate the effect of a person in a remote place as directly appearing in local space using a combination of the alter-ego robot and RPT. One of the applications of RPT is optical camouflage, which was chosen as one of the coolest inventions of 2003 by TIME Magazine.
Autostereoscopy is also what he is pursuing. RePro3D is a full-parallax autostereoscopic 3D display with haptic feedback using RPT. It can produce 3D images superimposed on actual scenes with smooth motion parallax, which is suitable for interactive 3D applications. HaptoMIRAGE is another autostereoscopic display for seamless interaction with the real environment mixed together. This system can project the 3D image in mid-air with 180 degree-wide-angle of view based on our proposed ARIA (Active-shuttered Real Image Autostereoscopy) technology, and up to three users can observe the same image from different points of view. The 3D image can be superimposed on the real object, so that the user can get natural interaction with the mixed reality environment.
He has also developed telexistence wide-angle immersive stereoscope (TWISTER), which has a full-color autostereoscopic display with a 360-degree field of view. TWISTER displays 3D images on LED panels rotating at a high speed, while simultaneously capturing a 3D image of the observer by employing cameras installed on the rotating panels. This technology will enable us to have a "meeting" in a virtual space with people who are physically in different places. TELESAR IV has been developed using TWISTER as its control cockpit.
Furthermore, he is aiming at developing a system which enables recording, communicating, and reconstructing haptic sense. Haptic sense is required in addition to the visual and auditory senses in order to recreate realistic sensations. He is pursuing haptics using Haptic Primary Color Principle, and has developed a distributed vector-type sensor, called GelForce, and an electrocutaneous display. Currently, TELESAR V has been developed to research Haptic Telexistence.
It has been successfully demonstrated that the TELESAR V master-slave system can transmit fine haptic sensations, such as the texture and temperature of material, from an avatar robot’s fingers to the human user’s fingers. The avatar robot is a telexistence anthropomorphic robot with a 53-degree-of-freedom body and limbs. It is able to transmit not only visual and auditory sensations but also haptic sensation with sensations of presence.
Prof. Tachi is a founding director and a fellow of the Robotics Society of Japan (RSJ), the 46th President and a fellow of the Society of Instrument and Control Engineers (SICE), a fellow of the Japan Society of Mechanical Engineers (JSME), and is the founding President of the Virtual Reality Society of Japan (VRSJ).
From 1988, he has served as Chairman of the IMEKO (International Measurement Confederation) Technical Committee 17 on Measurement in Robotics, and organized several ISMCR (International Symposium on Measurement and Control in Robotics) conferences.
He initiated and founded ICAT (International Conference on Artificial Reality and Telexistence) in 1991 and IVRC (International-collegiate Virtual Reality Contest) in 1993. He is a member of IEEE VR Steering Committee and served as General Chair of IEEE VR 2001, 2002 and 2015.
Dr. Tachi has received a number of awards including IEEE EMBS Outstanding Paper Award (1983), IEEE VR Best Paper Awards (2001, 2004), ICAT Best Paper Awards (2000, 2004), RSJ Transaction Paper Award (1987), SICE Transaction Paper Award (1990), RSJ Technology Award (1991), VRSJ Transaction Paper Awards (1999, 2001, 2002, 2003, 2004, 2012), TIME Magazine Coolest Invention (2003), Laval Mayenne Awards (2003, 2005), Good Design Award (2006), ASIAGRAPH Takumi Award (2007), VRSJ Distinguished Contribution Award (2006), RSJ Founding Contribution Award (2012), Japan Minister of International Trade and Industry Prize (1988), Japan Minister of Education, Culture, Sports, Science and Technology Prize (2011), Governor of Tokyo Prize (2011), IMEKO Distinguished Service Award (1997), and IEEE Virtual Realty Career Award (2007).