Toshio Fukuda has been blazing trails for many of his profession. He’s thought of to be some of the prolific students in robotics, writing greater than 2,000 analysis papers and authoring a number of books on the sector. He’s an influential determine due to his pioneering work growing biomedical robotic methods, industrial robots, micro-nano robotics, mechatronics, and AI-driven automation.
Fukuda launched one of many first robotics conferences, the IEEE/RSJ International Conference on Intelligent Robots and Systems (IROS). It’s nonetheless standard nearly 40 years later.
Toshio Fukuda
Employer
Egypt-Japan College of Science and Know-how, in Alexandria
Title
Professor and vp of analysis
Member grade
Life Fellow
Alma maters
Waseda College, in Tokyo; College of Tokyo
An IEEE Life Fellow, he’s a professor emeritus within the division of micro-nano systems engineering and a visiting professor at Nagoya University, in Japan, the place he taught for practically 25 years. Presently, he’s a vp of analysis on the Egypt-Japan University of Science and Technology, in Alexandria, Egypt.
Inside IEEE, Fukuda has held high volunteer positions together with the group’s highest workplace: He served as IEEE president in 2020, turning into the primary individual of Asian descent to carry the function.
He’s a former program director of Japan’s Moonshot program, which by 2050 intends to develop superior AI robots.
Born in Japan, Fukuda has been acknowledged by the nation for his contributions to science with two of its highest awards: the Medal of Honor with a purple ribbon in 2015 and the Order of the Sacred Treasure in 2022.
IEEE honored him with this 12 months’s Richard M. Emberson Award for “distinguished service advancing the technical goals of IEEE, particularly within the space of robotics.” The IEEE Board-level award is sponsored by the IEEE Technical Activities Board. Fukuda obtained the award on 24 April at a ceremony in New York City.
As a former IEEE president who has served as a grasp of ceremonies at a number of of the group’s main award occasions, Fukuda famous that he’s extra accustomed to bestowing awards than receiving them.
“It’s very fascinating to be on the receiving finish,” he says.
As a youngster, Fukuda spent his summer time breaks educating himself tips on how to construct issues together with transistor radios and steam engines.
“It was very good to have a hands-on pastime and make these sorts of issues myself,” he says. His experimentation led him to review engineering.
He earned a bachelor’s diploma in engineering in 1971 from Waseda University, in Tokyo. He says one in all his professors there—Ichiro Kato, thought to be the daddy of Japanese robotics analysis—was a great mentor who made a constructive influence.
Fukuda’s analysis pursuits have been robotics and mechatronics, a area that mixes robotics, electronics, pc science, and control systems.
He went on to earn a grasp’s diploma and a doctorate in science from the University of Tokyo, in 1971 and 1977. Throughout these years, he additionally attended Yale, the place he performed analysis on superior management concept in 1973.
He displays fondly on his time at Yale: “It was a really good surroundings and a form of free-thinking ambiance. It motivated me to review extra.”
“IEEE doesn’t care who you’re, what you do, what nation you’re from, or whether or not you’re male or feminine. IEEE accepts individuals who have vitality and fervour.”
Whereas at Yale, Fukuda served as an assistant to his advisor—which led him to contemplate a profession in academia, he says, as a result of he loved the liberty that analysis work afforded him.
However he realized that such freedom comes with a value. College researchers are anticipated to boost the cash that funds their work. He compares researchers to small-business homeowners who’ve to herald cash to maintain their enterprise afloat.
That realization led him to pick out robotics as his area as a result of he supposed to develop applied sciences helpful to trade, he says.
After incomes his doctorate, he returned to Japan in 1977 to work as a analysis scientist on the authorities’s Mechanical Engineering Laboratory, later renamed the National Institute of Advanced Industrial Science and Technology, in Tsukuba.
“There was lots of analysis occurring on the lab, together with sensible robotics and concept,” he says.
He left Japan in 1979 to turn out to be a visiting analysis fellow on the University of Stuttgart, in Germany. Throughout his 12 months there, he studied methods, software program issues, and associated subjects.
He returned to Japan and was employed as an affiliate professor of mechanical engineering on the Tokyo University of Science. He performed analysis into sensible makes use of for robots by visiting industrial vegetation. He determined to develop robots that examine industrial tools akin to these utilized in meeting vegetation, oil refineries, and energy stations—locations that “will be hostile environments for people,” he says.
His work drew curiosity from chemical, oil, and utility firms.
“I obtained some huge cash from them for this very sensible software, which funded my analysis,” he says, laughing.
Creating standard robotic methods
Fukuda grew uninterested in making these robots, he says, so he switched to creating ones for scientific functions. He developed many strategies, however he most likely is greatest recognized for his modular, cellular robotic systems (CEBOTs), which he launched in 1985.
He has described how CEBOTs work in quite a few papers revealed within the IEEE Xplore Digital Library.
The CEBOT system consists of a lot of autonomous robotic cells that stick collectively like interlocking Lego plastic bricks, he says.
Every cell is a basic modular unit that has a perform. When a easy process is given, the system can analyze it and generate the construction of the mobile manipulator. The cells connect with and detach from one another by connection mechanisms and cooperate mutually, creating advanced constructions and configurations.
“You begin growing from the component-wise to the cell-wise to a small practical unit—and then you definately provide you with clusters that amplify methods. We are able to make a society of robotic beings like that,” he defined in his oral history revealed on the Engineering and Technology History Wiki. “It’s a distributed robotic system, a self-organized robotic system, and in addition an evolutionary robotic system.
“It’s additionally a fault-tolerant robotic system as a result of if one thing is mistaken, you simply take away these issues and make a brand new one. You retain the system working. That’s an excellent factor.”
Immediately CEBOTs are used for a wide range of duties akin to delivering remedy in hospitals, aiding with planting crops, and transporting merchandise in distribution facilities. Take a look at IEEE Spectrum’s Robots Guide for information from the world of robotics.
In 1989 Fukuda joined Nagoya College as a professor of mechanical engineering and micro-nano methods engineering. Throughout his 24-year profession there, he was director of the college’s Center for Micro-Nano Mechatronics. He developed a protracted record of applied sciences on the college, together with many for medical functions. He additionally performed groundbreaking analysis into clever robotic methods and micro- and nano-robotics.
One other know-how he’s recognized for is brachiation robots, which he helped develop in 1988. He calls them monkey robots as a result of they’re based mostly on the pendulum-like motion of monkeys swinging from tree to tree. The gravity-based locomotion allows steady motion.
Brachiation robots now are inspecting high-voltage transmission towers and bridges, looking broken buildings for survivors, and performing upkeep on pipelines and cables.
Fukuda retired from the college in 2013 and was named professor emeritus.
He didn’t keep retired for lengthy, although. He subsequent held a educating appointment at Meijo University, in Nagoya, till he left in 2022 to affix the Egypt-Japan College.
A outstanding volunteer
He joined IEEE in 1980 on the encouragement of one in all his analysis advisors, Professor Fumio Harashima, now an IEEE Life Fellow. After attending conferences and studying the group’s publications, Fukuda says, he appeared ahead to turning into extra concerned.
“I wished to know tips on how to arrange a convention and tips on how to edit a paper for one in all its Transactions,” he says. “I wished to know what was occurring from contained in the group, not simply the surface.”
In 1988 he was the founding chair and organizer of IROS, in Tokyo. The convention had 330 attendees that 12 months, and was supported by Harashima. Immediately it is among the largest and most prestigious conferences on the subject, attracting greater than 9,000 individuals yearly. Out of 120,000 conferences, it was the one convention within the Nature Index database for this 12 months, Fukuda says.
In 1996 he and different members launched IEEE Transactions on Mechatronics.
He was the founding president of the IEEE Nanotechnology Council, which was established in 2002. He’s thought of a pioneer in nanotechnology analysis, notably concerning the way it pertains to robotics.
Over time, he has held quite a few volunteer positions on IEEE editorial boards and committees.
He was the 1998–1999 president of the IEEE Robotics and Automation Society, turning into the primary non-U.S. member to carry the title.
He was director of IEEE Division X (2001–2002 and 2017–2018), which covers intelligent systems, organic engineering, robotics, management methods, and photonic applied sciences. He served because the 2013–2014 director of IEEE Region 10 (Asia-Pacific).
Because the 2020 IEEE president, Fukuda noticed the group by the early a part of the COVID-19 pandemic. Due to journey restrictions, he realized IEEE ought to change the way it provided its in-person providers, particularly academic packages. He inspired IEEE Educational Activities to develop an online learning platform. The IEEE Learning Network began with simply three programs and now affords practically 2,000 programs, webinars, and studying supplies.
An award-winning member
The Emberson Award joins a slew of different recognitions Fukuda has obtained from IEEE. They embody a number of from the IEEE Robotics and Automation Society: a 2004 Pioneer Award, a 2009 Saridis Leadership Award, and the 2011 Harashima Award for Innovative Technologies. He’s additionally a recipient of the Board-level 2010 IEEE Robotics and Automation Technical Field Award.
He says he feels strongly that IEEE must be a various group that’s welcoming to all. As IEEE president, he led efforts to plot a diversity, equity, and inclusion program. A number of insurance policies, procedures, and bylaws have been revised to present members a secure, inclusive place for discourse.
“It’s vital for IEEE to make everybody really feel comfy,” he says. “DEI packages are vital. All individuals must be equal. IEEE doesn’t care who you’re, what you do, what nation you’re from, or whether or not you’re male or feminine. IEEE accepts individuals who have vitality and fervour.
“It accepted me, from the Far East. That’s why I prefer it.”
You may be taught extra about Fukuda and his profession from the oral history performed by the IEEE History Center.
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