"Monitoring cable systems is one of the holy grails of the electricity industry," says Don Von Dollen, program manager for the IntelliGrid Program at the Electric Power Research Institute (EPRI), in Palo Alto, CA. "When you get a cable failure, it's a real pain to find it, dig it up, and fix it. Coming up with good diagnostics has been a longtime challenge, and it's a tough nut to crack."
For decades, researchers and utilities have been working on various ways to monitor power grids. A traditional method, which has been used for 50 years, is called a high-potential test, says Von Dollen. "You basically disconnect the cable and send a big voltage spike across it," he says. "If there are any problems, this is going to cause the cable to fail." It's a brute-force method, he says, but if the cable fails, at least it's in a controlled setting. More recently, people have used radar to detect malfunctions.
But these methods require a fair amount of human interaction. The UW researchers approached the challenge by designing a robot that can autonomously traverse underground cables buried in pipes and tunnels. The robot, which rolls along on small neoprene wheels and is powered by a battery pack, hugs the cable tightly as its three onboard sensors scan for signs of wear and tear. Only about 10 percent of underground cables are found in pipes or tunnels (the rest are buried directly in the ground). But these cables are often the ones that "experience unexpected conditions" such as water drips, says Alexander Mamishev, professor of electrical engineering at UW and project leader, which makes them more susceptible to failure.
Monitoring these underground power systems is a two-part problem, Mamishev says. First, the terrain is difficult for a robot to navigate autonomously. Miles of cables consist of twists, turns, brackets, and overhangs that can impede progress. These considerations were integral to the design, he says. The robot has a gyroscope to help maintain its balance and stabilizing arms to help right it if it slides off track. The robot is built in segments, somewhat like a train with multiple cars, and it sits three inches above a cable. One segment is devoted to the robot control, and the other one houses the sensors and data-processing units.
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