Robots will one day provide tremendous benefits to society, such as in search and rescue missions and putting out forest fires — but not until they can learn to keep working if they become damaged.
A new paper in the journal Nature, called “Robots That Can Adapt Like Animals,” shows how to make robots automatically recover from injury in less than two minutes.
A video of the work shows a six-legged robot that adapts to keep walking even if two of its legs are broken. It also shows a robotic arm that learned how to correctly place an object even with several broken motors.
Antoine Cully and Jean-Baptiste Mouret, from the Pierre and Marie Curie University in France, led the work in collaboration with Jeff Clune (University of Wyoming) and Danesh Tarapore (Pierre and Marie Curie University).
In contrast to today’s robots, animals exhibit an amazing ability to adapt to injury. There are many three-legged dogs that can catch Frisbees, for example, and if your ankle is sprained, you quickly figure out a way to walk despite the injury. The scientists took inspiration from these biological strategies.
“When injured, animals do not start learning from scratch,” senior author Jean-Baptiste Mouret said. “Instead, they have intuitions about different ways to behave. These intuitions allow them to intelligently select a few, different behaviors to try out and, after these tests, they choose one that works in spite of the injury. We made robots that can do the same.”
Before it is deployed, the robot uses a computer simulation of itself to create a detailed map of the space of high-performing behaviors. This map represents the robot’s “intuitions” about different behaviors it can perform and their predicted value. If the robot is damaged, it uses these intuitions to guide a learning algorithm that conducts experiments to rapidly discover a compensatory behavior that works despite the damage. The new algorithm is called “Intelligent Trial and Error.”
“Once damaged, the robot becomes like a scientist,” explains lead author Antoine Cully. “It has prior expectations about different behaviors that might work, and begins testing them. However, these predictions come from the simulated, undamaged robot. It has to find out which of them work, not only in reality, but given the damage.
“Each behavior it tries is like an experiment and, if one behavior doesn’t work, the robot is smart enough to rule out that entire type of behavior and try a new type,” Cully continues. “For example, if walking, mostly on its hind legs, does not work well, it will next try walking mostly on its front legs. What’s surprising is how quickly it can learn a new way to walk. It’s amazing to watch a robot go from crippled and flailing around to efficiently limping away in about two minutes.”
The same Intelligent Trial and Error algorithm allows robots to adapt to unforeseen situations, including adapting to new environments and inventing new behaviors.
Jeff Clune explains that “technically, Intelligent Trial and Error involves two steps: (1) creating the behavior-performance map, and (2) adapting to an unforeseen situation.”
The map in the first step is created with a new type of evolutionary algorithm called MAP-Elites. Evolutionary algorithms simulate Darwinian evolution by hosting “survival of the fittest” competitions in computer simulations to evolve artificially intelligent robots. The adaptation in the second step involves a “Bayesian optimization” algorithm that takes advantage of the prior knowledge provided by the map to efficiently search for a behavior that works despite the damage.
“We performed experiments that show that the most important component of Intelligent Trial and Error is creating and harnessing the prior knowledge contained in the map,” Clune says.
This new technique will help develop more robust, effective, autonomous robots. Danesh Tarapore provides some examples.
“It could enable the creation of robots that can help rescuers without requiring their continuous attention,” he says. “It also makes easier the creation of personal robotic assistants that can continue to be helpful even when a part is broken.”
Read more: Robots can recover from damage in minutes
The Latest on: Autonomous robots
via Google News
The Latest on: Autonomous robots
- Early bird savings end next Friday on tickets to Robotics+AI 2020on January 24, 2020 at 8:39 am
Autonomous driving is set to be one of the biggest categories for robotics and AI. But there are plenty of roadblocks standing in its way. Experts will discuss how we get there from here.
- Asia Pacific Autonomous Mobile Robot Market Expected to Grow with a CAGR of 17.5% Over the Forecast Period, 2020-2026 - ResearchAndMarkets.comon January 23, 2020 at 9:17 am
DUBLIN--(BUSINESS WIRE)--The "Asia Pacific Autonomous Mobile Robot (AMR) Market 2020-2026 by Offering, Product Type, Mode of Operation, Industry Vertical, End User, and Country: Trend Forecast and ...
- Global $20B+ Logistics Robots Market by Offering, Product Type, Operation Environment, Application, End-user and Region - Forecast to 2026on January 23, 2020 at 6:54 am
Dublin, Jan. 21, 2020 -- The "Global Logistics Robots Market 2020-2026 by Offering, Product Type, Operation Environment, Application, End-user, and Region: Trend Forecast.
- Brain Corp Achieves Record Sales Growth in 2019 Amid Strong Retailer Demand for Autonomous Mobile Robotson January 23, 2020 at 4:00 am
/PRNewswire/ -- Brain Corp, a San Diego-based AI company creating transformative core technology in the robotics industry, today announced that it ...
- Global Autonomous Mobile Robot Market Expected to Grow in Value to $58.9 Billion During the Forecast Period, 2020-2026 - ResearchAndMarkets.comon January 22, 2020 at 9:57 am
9.2 New Product Launch, Partnership, Investment, and M&A ...
- GBT Is Expanding Its Autonomous Machines (Robotics) Researchon January 21, 2020 at 11:48 pm
AI, for both mobile and fixed solutions, announced that it is expanding its autonomous machines research, working on the development of a dynamic simulation program for robots. With the requirement ...
- Walmart Will Expand Autonomous Shelf-Scanning Robots To 1,000 Storeson January 21, 2020 at 12:30 pm
Walmart will deploy Bossa Nova shelf-scanning robots at 650 additional U.S. stores by the end of summer 2020, bringing the devices to a total of 1,000 locations, according to Bloomberg. The six-foot ...
- Walmart is bringing autonomous inventory management robots to 650 more stores by this summeron January 21, 2020 at 10:05 am
Walmart is set to introduce inventory management robots that scan products on shelves at approximately 650 more stores by this summer.
- DARPA-backed Soft Robotics raises $23 million for autonomous grippers and sorterson January 20, 2020 at 10:39 am
Soft Robotics raised another $23 million to continue developing its solutions to the seemingly intractable problems gripping and sorting machines face. As work published by MIT and others has ...
- Agricultural Robots Industry Report 2019-2025 - Development of Autonomous Robotic Systems Will Provide Lucrative Opportunitieson January 17, 2020 at 1:23 am
Dublin, Jan. 17, 2020 (GLOBE NEWSWIRE) -- The "Agricultural Robots Market By Application, By Technology, By Geography - Global Forecast up to 2025" report ...
via Bing News