Prototype robot can independently inspect narrow pipes

Researchers from the University of Leeds have developed a miniature robot that can move independently through narrow pipes to inspect for damage or leaks.

According to Frontiers Science News, the robot, named Joey, is cheap to product, smart, small, and light. The Joeys can also move through pipes inclined at a slope or over slippery or muddy sediment at the bottom of the pipes.

Regular inspection of pipes for leaks or damages normally requires these to be dug up. This process is not only onerous and expensive but can cause disruption to traffic and the environment. Autonomous inspection/repair robotics present an opportunity for immense savings for drinking water and wastewater distribution systems.

“Underground water and sewer networks are some of the least hospitable environments, not only for humans, but also for robots,” says Thanh Luan Nguyen, a postdoctoral scientist at the University of Leeds who developed Joey’s control algorithms. “Sat Nav is not accessible underground. And Joeys are tiny, so [they] have to function with very simple motors, sensors, and computers that take little space, while the small batteries must be able to operate for long enough.”

Joey moves on 3D-printed ‘wheel-legs’ that roll through straight sections and walk over small obstacles. It is equipped with a range of energy-efficient sensors that measure its distance to walls, junctions, and corners, navigational tools, a microphone, and a camera with spotlights to film faults in the pipe network and save the images. The prototype cost only £300 ($356 USD) to produce.

Mud and Slippery Slopes

The team showed that Joey is able to find its way, without any instructions from human operators, through an experimental network of pipes including a T-junction, a left and right corner, a dead-end, an obstacle, and three straight sections. On average, Joey managed to explore about one meter of pipe network in just over 45 seconds.

The researchers also verified that the robot easily moves up and down inclined pipes with realistic slopes. And to test Joey’s ability to navigate through muddy or slippery tubes, they also added sand and gooey gel (actually dishwashing liquid) to the pipes – again with success.

Currently, Joeys have one weakness: they can’t right themselves if they inadvertently turn on their back, like an upside-down tortoise. The authors suggest that the next prototype will be able to overcome this challenge. Future generations of Joey should also be waterproof, to operate underwater in pipes entirely filled with liquid.

Joey’s Future

The Pipebots scientists aim to develop a swarm of Joeys that communicate and work together, based off a larger ‘mother’ robot named Kanga. Kanga, currently under development and testing by some of the same authors at Leeds School of Computing, will be equipped with more sophisticated sensors and repair tools such as robot arms, and carry multiple Joeys.

“Ultimately we hope to design a system that can inspect and map the condition of extensive pipe networks, monitor the pipes over time, and even execute some maintenance and repair tasks,” says Cohen. “We envision the technology to scale up and diversify, creating an ecology of multi-species of robots that collaborate underground. In this scenario, groups of Joeys would be deployed by larger robots that have more power and capabilities but are restricted to the larger pipes.”