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Brains For Trains: How Software Is Making Trains Smarter

We fly connected planes and design self-driving cars, but what about smart trains?

GE’s Tier 4 Evolution Series locomotive at a test track in Pueblo, Colorado. (Image credit: GE Transportation)
GE’s Tier 4 Evolution Series locomotive at a test track in Pueblo, Colorado. (Image credit: GE Transportation)

We fly connected planes and design self-driving cars, but what about smart trains? If you pay close attention, there is the faint sound of the whistle coming from around the digital bend.

At this week’s InnoTrans 2016 transportation trade show in Berlin, for example, GE is unveiling a “superbrain” platform for locomotives that transforms them into mobile data headquarters—helping make trains smarter and faster. “A decade from now, digital tools will take railroad productivity and efficiency to unprecedented levels,” says Seth Bodnar, chief digital officer at GE Transportation. “The whole network will light up like a brain.”

It’s about time. Bodnar’s train brain will help railways boost locomotive horsepower, improve operations and burn less fuel. “It’s really about enabling self-aware trains in a smart ecosystem,” he says.

In the age of consumption and climate change, this is important stuff. For starters, freight has big environmental benefits. On average, railroads are four times more fuel-efficient than trucks, according to the Association of American Railroads, and moving more freight to rails would cut down on traffic and pollution on highways. Consider that a single 12-cylinder GE Evolution Series locomotive can pull the equivalent of 170 Boeing 747 jetliners.

The brain connects to GoLINC—an onboard software and computing platform that turns a locomotive into what is essentially a mobile data center. The system is already in more than 6,000 trains.

GE’s Tier 4 Evolution Series locomotive at a test track in Pueblo, Colorado. (Image credit: GE Transportation)GE’s Tier 4 Evolution Series locomotive at a test track in Pueblo, Colorado. (Image credit: GE Transportation)

GoLINC allows train operators to gather information from track sensors and cameras to better understand the flow of rail traffic and road conditions. It uses the data to make intelligent decisions, even while traveling through the Rockies or the Mojave Desert.

But the system is just part of GE’s vision for the industry’s digital future. The company wants to connect all of its 21,000 locomotives, pulling freight and passengers in 50 countries, to Predix, its cloud-based software platform for the Industrial Internet.

Right now the U.S. rail industry deals with 500,000 delays a year, and one in every four trains experiences some kind of unplanned downtime. By making trains smarter and connecting them to the Industrial Internet, freight companies can reduce this downtime. GoLINC, working with other Predix train apps such as Trip Optimizer and Yard Planner, can anticipate maintenance problems so operators can resolve them before they become a problem. They can see where lines are running efficiently and where routes need to be reworked.

Even a small improvement in efficiency can make a big difference. A 1 percent reduction in wait times at stops can save $2.2 billion, GE says. A 1 mph rise in speed can save $2.5 billion.

And while new locomotives, such as GE’s T4, are coming off the production lines complete with sensors and the latest data analytics technology, GE is also upgrading older engines at half the cost of buying a new train. “We start targeting locomotives for an upgrade when they’re about 15 or 20 years old,” says John Manison, a senior business operations executive for GE’s locomotive modernization program. “But we do modernizations in locomotives up to 40 years old—giving them 20 more years of life is a lot.”

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