Winner of Fetch Robotics FetchIt! Challenge Executes Complex Manufacturing Tasks Using Autonomous Mobile Robotic Arm
Georgia Institute of Technology Awarded Prize Package Worth Over $150K In Inaugural Contest Hosted at IEEE Conference on Robotics and Automation (ICRA)
SAN JOSE, Calif. — May 22 2019 — Fetch Robotics, the pioneer of on-demand automation, today announced the results of the inaugural FetchIt! Mobile Manipulation Challenge. The competition was designed to advance the state of technology for applying mobile manipulators, which are autonomous mobile robots (AMRs) fitted with robotic arms, for use in manufacturing and related applications. The FetchIt! Challenge attracted teams from leading universities, who were tasked with using a Fetch Mobile Manipulator robot to navigate to stations in a work cell where they picked up items with the arm, inserted them into a machining tool, placed the machined items into kits, transported the finished kits to an inspection station, and then to a drop-off location. This is the first competition that encompasses the full range of activities that are commonly found in manufacturing environments.
Georgia Tech was awarded first prize for successfully assembling three kits in thirty-nine minutes, earning a prize package that included a Fetch Mobile Manipulation Research Robot – a $100K value – along with additional prizes from co-sponsors EandM, SCHUNK and SICK AG. More information on the FetchIt! Challenge is available here.
FetchIt! Challenge participants included:
• Team Columbia: Columbia University, led by Professor Peter K. Allen, PhD, and Neil Chen
• Team DeRAILers: The Georgia Institute of Technology, led by Associate Professor Sonia Chernova, PhD and David Kent
• Team RoboHawks: The University of Massachusetts Lowell, led by Professor Holly Yanco, PhD, Assistant Professor Reza Ahmadzadeh, PhD and Zhao Han
• Team Fido: Independent Competitors, Thomas Butterworth and Ben Jarvhi
Autonomous mobile robots are seeing rapid adoption in multiple applications, particularly for material movement tasks in warehouses and factories. This has fueled growing interest in using AMRs equipped with robotic arms – so called Mobile Manipulators – for applications that combine autonomous transport with robotic arms that can grasp and manipulate objects. While conceptually simple, combining autonomous mobility with robotic arm activity is extremely challenging, requiring complex interaction between the robot navigation, machine vision, arm operation and safety systems.
The FetchIt! competition focused on teams autonomously completing combined manipulation and navigation tasks. The goal was to assemble a kit from six objects obtained from stations around the designated arena. Designed to mimic a common machine-tending process in manufacturing, the objects were picked from bins and then placed in a kit and transported to a drop-off location. All teams used a stock Fetch Mobile Manipulator, which is the most widely deployed mobile manipulation robot, deployed at over fifty of the world’s leading academic and commercial robotic research centers.
“I’d like to congratulate all the teams for their accomplishments during the course of this challenge,” according to Russell Toris, Director of Robotics at Fetch Robotics. “When setting out to create this challenge, we knew we wanted to keep it grounded to a real-word scenario. Interacting with machinery that is designed to be used by humans is no easy task. Piece-picking, kitting, and countless other tasks are going to require state-of-the-art perception, motion planning, navigation, and safety all seamlessly working together. The teams’ performance this week indicate that they represent some of the world’s leading experts in these skills.”
“We’re very excited to have won the FetchIt! challenge,” said Georgia Tech’s Sonia Chernova. “It has allowed us to validate our research code in a complex domain. We can’t wait to continue our work with our newest Fetch robot.”
Added Holly Yanco from UMass Lowell: “Everyone from Fetch has been helpful and very encouraging. This has been an amazing experience and the tasks used for the competition form a great basis for our ONR MURI research.”
Sponsors and Prizes
In addition to Fetch Robotics, additional sponsors included EandM, Schunk, SICK, and The Construct.
First Place: Georgia Tech
Fetch Mobile Manipulation Research Robot, MRS1000 4-layer LiDAR sensor (1) provided by SICK and EandM, along with 7,000 Schunk Bucks
Second Place: University of Massachusetts Lowell
MRS1000 4-layer LiDAR sensor (1) and TiM561 LiDAR laser scanner (1) provided by SICK and EandM, along with 5,000 Schunk Bucks
Additional Prizes: TiM561 LiDAR laser scanner (1) provided by SICK and EandM, for all entrants
Platform for Robotic Research
Designed to work with the Robot Operating System (ROS) for the greatest common usability and familiarity, the Fetch Mobile Manipulator and the Freight Mobile Robot Base are robotics platforms used by researchers around the world to collaborate and share research. The Fetch Mobile Manipulator provides an affordable, fully-integrated standard platform for mobile manipulation research that has been purposefully designed for typical human working environments. The Fetch Research Robot is being used by researchers and innovators at the world’s most advanced organizations, including Arizona State University, Carnegie Mellon University, Google, Northeastern University, OpenAI, Shenzen University, Softbank, Toyota Research Institute, University of Michigan, University of North Carolina-Charlotte, University of Sydney, University of Tokyo, Virginia Tech and more.
About Fetch Robotics
Fetch Robotics is an award-winning intralogistics automation company headquartered in Silicon Valley. We provide innovative, on-demand warehouse automation solutions for material handling and inventory management by combining mobile robotics with the power of the cloud to find, track, and move almost anything in any facility. Fetch Robotics’ solutions and services are deployed in leading distribution, fulfillment, and manufacturing centers around the world, augmenting workforces to drive increased efficiency and productivity. For more information, please visit http://www.fetchrobotics.com or follow the company on Twitter @FetchRobotics.