PITTSBURGH—The Robot Hall of Fame® inducted four robots chosen for the first time by a popular vote — Aldebaran Robotics' NAO humanoid, iRobot's PackBot bomb disposal robot, Boston Dynamics' four-legged BigDog and WALL-E, the fictional robot of the namesake Pixar movie — during a ceremony tonight at Carnegie Science Center in Pittsburgh.
"More than any previous class of inductees, this group of robots selected by popular vote represents contemporary robotics — robots at the cutting edge of technology — rather than older robots of strictly historical importance," said Shirley Saldamarco, Robot Hall of Fame director and a faculty member at Carnegie Mellon's Entertainment Technology Center. "Two of our inductees, NAO and Packbot, are commercially available and BigDog is still the focus of active research. Even our fictional honoree, WALL-E, is from a movie that's just four years old."
More than 17,000 people across every continent except Antarctica participated in the online vote in August and September. The 12 nominees on this year's ballot were chosen by a group of 107 robotics experts, industry leaders and aficionados selected by the Robot Hall of Fame (RHOF).
The RHOF, created in 2003 by Carnegie Mellon University, recognizes excellence in robotics technology. It honors both the fictional robots that inspire innovation and the real robots that embody it. In 2009, it was integrated into Carnegie Science Center's roboworld exhibit.
The new inductees were elected in four categories: Education & Consumer; Entertainment; Industrial & Service; and Research.
PackBot won in the Industrial & Service category. Created by iRobot, PackBot is one of the most successful battle-tested robots in the world. It performs bomb disposal and other dangerous missions for troops and first responders.
BigDog was recognized in the Research category. This dynamically stable quadruped robot was created in 2005 by Boston Dynamics. It can traverse difficult terrain and run at 4 miles an hour while carrying 340 pounds and climbing a 35-degree incline