Robot Technology News
ROBO SPACE
Shape-shifting robot inspired by insect swarms and tree roots is teaching itself to mark contamination zones
illustration only
Shape-shifting robot inspired by insect swarms and tree roots is teaching itself to mark contamination zones
by Micaela Morrissette for WVU Today
Morgantown, WV (SPX) Aug 22, 2024

West Virginia University roboticists are working on an alternative path to robot autonomy in Loopy, a "multicellular robot" composed of a ring of individual interconnected robot cells.

Supported by a National Science Foundation award, the WVU team will test Loopy's ability to "co-design" itself, determining its own shape with limited support from human engineers. With no direct programming of its behaviors, they believe Loopy can learn to use its body to mark the boundary of a contaminated area, such as the site of an oil or toxin spill.

Inspired by natural phenomenon like an ant swarm clustering around a spilled soda or a system of tree roots growing around obstacles, Loopy changes form as each of its cells responds organically to the environment.

Lead researcher Yu Gu, the Mechanical, Materials and Aerospace Engineering Academy of Distinguished Alumni Professor at the WVU Benjamin M. Statler College of Engineering and Mineral Resources, said the ability to reshape itself could make Loopy "transformative" to robotics, with the potential ability, unmatched by conventional robots, to respond flexibly to unpredictable real-world situations.

"Loopy originated as a thought experiment in my lab," Gu said. "It was conceived as a challenge to the prevalent 'top down' thinking in robotics, in which the robot is passive and the human designs, programs and builds it.

"In contrast, Loopy is an example of 'swarm robotics.' Many small robot cells interlink to make Loopy, allowing lifelike traits and complex, coordinated behaviors like problem-solving to emerge from the cells' simple, decentralized reactions to stimuli."

Loopy's body is made up of 36 identical cells physically connected in a circle. Each cell can control its own movement, and each cell has sensors that keep it informed about its joint angle as well as external stimuli like light and temperature.

To track how Loopy responds to different situations, Gu's lab is outfitted with a tabletop test environment equipped with overhead cameras, a motion capture system and a projector. Under the table, heating wires will create warm spots that simulate contamination areas. An overhead thermal camera visualizes the heatmap, and each of Loopy's cells has a temperature sensor embedded in its foot.

With doctoral student and NSF graduate fellow Trevor Smith, of Appalachia, Pennsylvania, Gu will test Loopy in various unpredictable conditions, including different surface materials and obstacles. They'll evaluate Loopy's accuracy in circling contamination areas, Loopy's responses to the unforeseen, and Loopy's tolerance of situations about which it has little or inaccurate information.

At the same time, they'll compare the solutions Loopy finds organically with a more conventional, centralized approach in which a human designer can access all the sensor data and control Loopy's individual cells.

"The research progress on Loopy will likely be nonlinear and unpredictable," Gu said. "More often than not, the outcome of our experiments with Loopy is unexpected, and that has been a source of insight and a driver for future investigations.

"What we want to know is whether Loopy's self-organized solutions to problems offer greater adaptability and resilience than programmed behaviors, and how to harness robotic swarm behaviors for practical applications. Once we have established the conditions that foster the spontaneous emergence of these complex behaviors in multicellular robots, I believe robots that work like Loopy will have potential for applications as diverse as adaptive leak sealing or interactive art displays."

While conventional, top down robot systems are "unnatural and brittle" and struggle to adapt to novel conditions, in swarm robotics, the collective intelligence of simple cells allows new behaviors to emerge naturally, through a "bottom up" process.

"Our approach is philosophically similar to permaculture, in which human land managers work with rather than against nature to create self-sufficient, sustainable agricultural ecosystems," Gu said. "In our robot design process, there are three equal players: humans, the robot and the environment."

Of the several biological models for Loopy, Gu found particular inspiration in studies on plant intelligence. For example, chemical signaling in plants served as his model for the way decentralized information among cells can contribute to collective behavior.

"Plant roots grow by producing new cells," he explained. "Each of those cells responds to extrinsic factors like the presence of water or nutrients and intrinsic factors like hormones. Those responses, en masse, coordinate root growth - where the roots go, the shapes they form. That's just one biological mechanism underscoring the importance of distributed coordination, as opposed to centralized control, in complex systems."

"This work blurs the lines between a robot's physical form, its behavior and its environment," Gu added. "Loopy could fundamentally alter our understanding of autonomy, adaptability and design in robotics."

Related Links
Mechanical, Materials and Aerospace Engineering Academy at WVU
All about the robots on Earth and beyond!

Subscribe Free To Our Daily Newsletters
Tweet

RELATED CONTENT
The following news reports may link to other Space Media Network websites.
ROBO SPACE
South Korean pet care goes high-tech with AI diagnostics
Yongin, South Korea (AFP) Aug 22, 2024
When five-year-old goldendoodle Mozzi started walking "unnaturally", his concerned owner rushed him to the vet in South Korea, where the problem was diagnosed not by humans but by AI. South Korea, a global leader in the production of chips that power generative AI, has been quick to embrace novel uses of the technology. One such application, "X Caliber", is helping vets pinpoint X-ray abnormalities in seconds, making diagnostics both quicker and easier to explain. The AI reading of Mozzi's X ... read more

ROBO SPACE
Dozens protest Iraq drone strike that killed two journalists

Russia says repels drone attack on Moscow

Quadsat Partners with GovSat to Enhance Antenna Testing

Tengden Completes Test Flight of China's Largest Cargo Drone

ROBO SPACE
How students learn to fly NASA's IXPE spacecraft

Astroscale Japan to lead Phase II of JAXA's Space Debris Removal Initiative

Adaptive 3D Printing System Enhances Precision in Organism Handling

Compact Spherical Air Bearings Streamline Satellite Attitude Control Testing

ROBO SPACE
Quantum innovation scales down as Sandia and ASU team up for integrated photonics

Converting brain activity to text on one extremely small integrated system

Toward a code-breaking quantum computer

Innovations in fiber-based wearable sensors using machine learning

ROBO SPACE
UN nuclear head at Russian plant warns over fighting

EDF, Westinghouse protest S.Korean rival's Czech nuclear deal

UN nuclear head to visit Russian plant near fighting

Putin accuses Ukraine of trying to attack Kursk nuclear plant

ROBO SPACE
NATO airbase in Germany raises security level over 'potential threat'

Military, NATO bases in Germany hit by security scares

US defense chief says 9/11 suspects should stand trial

US scraps plea deal with 9/11 mastermind: Pentagon

ROBO SPACE
Big polluters urged to pay as key Pacific summit opens in Tonga

Russia's largest strike in weeks hits Ukraine's power grid

Combining climate measures key to slashing emissions

States' Renewable Energy Policies Show Cross-Border Impacts

ROBO SPACE
Innovative smart windows cool buildings and generate electricity without external power

Study of disordered rock salts leads to battery breakthrough

Quenching the intense heat of a fusion plasma may require a well-placed liquid metal evaporator

More durable metals for fusion power reactors

ROBO SPACE
Shenzhou-18 Crew Tests Fire Alarms and Conducts Medical Procedures in Space

Astronauts on Tiangong Space Station Complete Fire Safety Drill

Shenzhou XVIII Crew Conducts Emergency Drill on Tiangong Space Station

Beijing Unveils 'Rocket Street' to Boost Commercial Space Sector

Subscribe Free To Our Daily Newsletters




The content herein, unless otherwise known to be public domain, are Copyright 1995-2024 - Space Media Network. All websites are published in Australia and are solely subject to Australian law and governed by Fair Use principals for news reporting and research purposes. AFP, UPI and IANS news wire stories are copyright Agence France-Presse, United Press International and Indo-Asia News Service. ESA news reports are copyright European Space Agency. All NASA sourced material is public domain. Additional copyrights may apply in whole or part to other bona fide parties. All articles labeled "by Staff Writers" include reports supplied to Space Media Network by industry news wires, PR agencies, corporate press officers and the like. Such articles are individually curated and edited by Space Media Network staff on the basis of the report's information value to our industry and professional readership. Advertising does not imply endorsement, agreement or approval of any opinions, statements or information provided by Space Media Network on any Web page published or hosted by Space Media Network. General Data Protection Regulation (GDPR) Statement Our advertisers use various cookies and the like to deliver the best ad banner available at one time. All network advertising suppliers have GDPR policies (Legitimate Interest) that conform with EU regulations for data collection. By using our websites you consent to cookie based advertising. If you do not agree with this then you must stop using the websites from May 25, 2018. Privacy Statement. Additional information can be found here at About Us.