Our joint teen-size team with Amirkabir University of Technology was a huge success at RoboCup! We came in third in the world in the teen-size (<1.4m) soccer competition, losing our semi-final match to Team Parand from Iran, the new world champion. We also won second in this year's technical challenges (push recovery, i.e. a robot being able to remain on its feet after being pushed, goal kicks from a moving ball, high kicks, and high jumps), behind team NTUST Teen from NTUST, Taiwan. Working with larger size robots is a bigger challenge yet than our more usual kid-size work, and reaching the stage where we can place at RoboCup is a big reward. Many thanks to our partners at AUT, and the students and faculty from our lab that put work into this: Amirhossein Hosseinmemar, Chris Iverach-Brereton, Brittany Postnikoff, Dewin White, Jamillo Santos, Kiral Poon, John Anderson, and Jacky Baltes. Jacky, Jamillo, and Kiral made the trip to China so many thanks for all the hours put in while at RoboCup!

 

 

Our work with Jennifer, detailed in the previous post, has won first place in the  2015 DARwIn-OP Humanoid Application Challenge at ICRA-2015 in Seattle  (ICRA is the IEEE Robotics and Automation Society's flagship conference ).  Congratulations to everyone in the lab who has worked on this, and to Jacky Baltes, Chris Iverach-Brereton, and Brittany Postnikoff, who went to the conference to present this work!


 

We have a Gallery of images of this work, as well as a selection of videos. We also have a summary video of this work available on YouTube.

Jennifer, who you last saw outside playing Hockey and is one of our most experienced FIRA HuroCup robots, has now learned new skills: cross country and alpine skiing. Cross Country and Alpine skiing is our entry to the 2015 DARwIn-OP Humanoid Application Challenge at ICRA-2015 in Seattle in May (ICRA is the IEEE Robotics and Automation Society's flagship conference ).

This is the latest extension of our work furthering our research into dynamic balancing and walking under realistic conditions. The changing nature of snowy ground, and the rapid control response required by alpine skiing, present significant challenges to gait design and dynamic balancing in Humanoid Robots, as does the challenge of operating this equipment in cold weather.

Please see the Youtube Video for Jennifer in action, and thanks to Gadgetify for creating the gif below from it. This work has really made the rounds of the media, including CBC, CTV, FOX (we like the phrase "the future looks adorable!"), Der Spiegel, German Radio 7, The Winnipeg Free Press, Metro, many international papers through the UPI, IEEE Spectrum, Gadgetify, Design Engineering, Motherboard on Vice,, CNet and Tomorrow Daily.


 

 

 

Our team just got back from the FIRA 2014 Hurocup, co-located with the International Robot Olympiad, in Beijing. HuroCup is the most challenging humanoid robot competition out there, with a single robot has to compete in 8 events: sprint, marathon, weight lifting, obstacle run, lift and carry, united soccer, basketball, and wall climbing. 30 teams took part in the event. Our team did well winning 2nd place in Wall Climbing with our smaller robots (45cm tall) and 3rd place in Sprint with our new larger robot (85cm tall).

There is also a gallery of pictures from FIRA 2014, and two new publications presented at the symposium in the publications section.

 

 

We came in third in the world in teen-size humanoids at RoboCup-2017, along with our partner, Amirkabir University of Technology, and took third place in the Technical Challenge!

The Autonomous Agents Laboratory is one of the research laboratories within the Department of Computer Science at the University of Manitoba, and is directed by Dr. John Anderson and Dr. Jacky Baltes. The goal of our work is the improvement of technology surrounding hardware and software agents as well as the development of applications employing these technologies. We are especially interested in cooperation in multi-agent settings, and the infrastructure necessary to support this and other forms of social interaction in intelligent systems.