But from my point of view, things were quite different. There was the fun of traveling to an exotic city, seeing all the different sights, experiencing the subways and noodle cafes and all the wonderful tastes and smells. There was the pleasure of meeting new people, talking about robotics and seeing the robots do their stuff. And it was a terrific learning experience. On the other hand, except for hobbyists and young peoples' contests, the excitement that you normally see in the crowds as they gather around the most interesting exhibit(s) at trade shows appeared to be missing.
There were few exhibitors that I hadn't already reported upon and included in The Robot Report's database of stories and links. Nevertheless there were many noteworthy displays, some of which are discussed below.
Here is a slideshow of my photos to give you a feel for the show, it's colors and crowds. Slide #1, of the Statue of Liberty - Tokyo version - was taken near the convention center and had a spectacular view back across Rainbow Bridge to central Tokyo and Tokyo Tower.
Robot --> robot interaction: Robot-robot interaction (where multiple robots work together to achieve a common goal) was featured by most of the major industrial robot manufacturers. From the programmable dancing robots to the larger arms and hands that pass things to other robots, many companies presented where they were and what they were planning to offer. Yaskawa and Kawada's robots (shown in the slideshow) worked, danced, moved in sync and were very stylish and colorful.
Robot --> human interaction: (The enabling interfaces so that humans and robots can communicate.) In the area of robot-human interaction, haptics and speech processing were shown in many different booths. Nevertheless, preprogrammed routines still control most robot activities although many manufacturers presented their prototype and edutainment robots which displayed every form of communication methodology.
Arms, grippers and hands: There were many new thinner, smaller and very flexible arms including some very capable lab robots and very stylish tabletops. Incremental improvements in arms and grippers were displayed - like the flex-pickers from ABB and Fanuc and a wide array of hand-like grippers and the very capable grippers from Kawasaki and Panasonic. KUKA invited people to their Tokyo headquarters to see their new sleekly designed arm unit (rightmost, above).
Sensors and vision systems were everywhere. Many 3D vision units were displayed. However, real-time sensing and perception -- the conversion to and interpretation of the digital results of the sensors and vision systems -- as has been coming out of research labs around the world, was lacking at the show.
Some achievements are now almost taken for granted and omitted or minimized from the show: navigation, mobility platforms and safety systems in particular. An infrared GPS navigation system from Toyo was one of the few exceptions.
Software normalization may be necessary, but there were so many competing software systems (SRI's Karto and Willow Garage's ROS to cite two that stood out) that standardization seems a long way off.
Many companies were offering virtualization software [a very necessary step in the acceptance and use of robotic surgery devices] for manufacturing, navigation and surgeries.
Service robots of all types were displayed: fire-fighting robots, surveillance scouts, security patrol bots, pipe cleaners, receptionists, edutainers and guides, etc. One stand-out, ripe for commercial deployment, was Sumitomo's new line of autonomous industrial cleaning robots (right).
Another interesting prototype is Mitsubishi's Wakamaru robot. Although not available for sale to individuals, it is available for universities, research projects and companies and is promoted as the first human-size robot that can provide companionship, or function as a care-taker or house sitter. It's capabilities are similar to the other prototypes: recharges itself, call or e-mail if it notices a problem, continuous access to the Internet, voice and face recognition, and a dictionary able to recognize 10,000 words.In one of the classes, KUKA and EUROP's Rainer Bischoff said, "Technology, economics and customer demand are re-shaping the future of robotics into one of service and human interaction." These sentiments were reflected in the actions of most of the major industrial manufacturers who were showing prototypes of their future service robot products as were a few Japanese technical universities (like the University of Tokyo KobaLab's pretty android receptionist Saya).
Healthcare, eldercare and medical robotics: Just as Intuitive Surgical was getting Japan's FDA approval to begin selling their da Vinci systems in Japan, Japan was preparing their own entry for trials and approvals in the EU and US (see below and in the slideshow).
The show had many healthcare robots from university labs and companies at varying stages of development. Yurina's Care Robot is a fascinating device for moving disabled people from and to beds and chairs. KobaLabs displayed robotic walking assistants. There were various exoskeletons shown: one from Tokyo's Institute of Technology enabled a person to lift and carry extraordinary amounts of heavy packages. Cyberdyne was there with their new line of rental exoskeletons. Paro and Beatbot rehabilitation robots got lots of attention.
Concluding remarks: Two stories caught my attention during the show: one reported upon a GA Tech survey which found that older adults are more amenable than younger ones -- 77% to 67% -- to having a robot "perform critical monitoring tasks that would require little interaction between the robot and the human." The findings represent a significant heads up for the eldercare robotics industry and appeared to be reflected at iREX2009.
The second story, from the Atlantic, suggested that robotic takeover of repetitive, dull, dirty and dangerous jobs is having a serious impact on America's unskilled labor force and, combined with a continuing focus on cost-cutting and productivity increases, is going to have a large and continuing destabilizing effect on America's economy.
The fear of job losses, coupled with America's lack of investment in STEM education and research (Science, Technology, Engineering and Math), is propelling the robotics industry to countries that already have funded robotics roadmaps designed and being implemented. In America, the roadmap was presented last February and is still being discussed. It's a long way from being funded. President Obama has been making the rounds talking about strategic investments to help with STEM -- and many companies are getting onboard (iRobot just started a new program for the advancement of robotics knowledge) -- but will it be enough to tip the scales from the destabilizing effects suggested in the Atlantic story? It was this pessimistic spin that was on the lips of the English speaking people I talked with. Additionally, America's lack of direction in robotics appeared to be reflected in the few American companies displaying their products at the show.
I left iREX with a bag full of robotics literature and a good feeling toward all the people I met and talked with. I learned and saw things from the perspective of the biggest players in the field and I am grateful for the overall experience. And I'm anxious to return... I was so busy that I didn't have time to see the cult movie "RoboGeisha" (which has English sub-titles)!