- The Washington Times - Monday, March 2, 2009

Imagine how much easier the commute would be if you had the ability to see not just the traffic around you, but also for five miles ahead. Think of the notion that you could know what to expect when crossing the Woodrow Wilson Bridge or getting on the Beltway at Connecticut Avenue.

That’s the basic idea behind an 18-month-old effort to upgrade the nation’s air traffic control system.

After decades of dependence on radar, a new system based on global positioning technology that uses satellites to determine an object’s place, time and velocity is making inroads.

ITT Corp.’s Defense Systems unit, based in Herndon, is the lead contractor on the effort, which is called an Automatic Dependent Surveillance-Broadcast, or ADS-B, system, for the Federal Aviation Administration.

The effort, which began in 2007 and could be extended to 2025 by the FAA, might be worth as much as $1.8 billion to ITT, said Vincent Capezzuto, the agency’s director of Surveillance and Broadcast Services.

“This is the beginning of a new infrastructure that’s going to be around for 50 years. It’s exciting to be a part of it,” Mr. Capezzuto said. ITT has been “performing very well,” he added.

The system, explained John T. Kefaliotis, ITT’s vice president of Next Generation Transportation Systems, will deliver “at a lower cost, more accurate and more frequent updating” of positional information for aircraft, once a second versus once every 12 seconds with radar.

“We can also survey aircraft where previously it wasn’t possible, such as from oil platforms in the Gulf of Mexico,” he added. The system’s ground receivers and transmitters can be placed in many different kinds of locations, allowing for greater expansion of the service, he said.

The new program, although carrying the overall tag of ADS-B, is actually composed of four services: GPS coverage from a plane back to the ground and adjacent aircraft on a 1090 MHz band for large planes; “universal” GPS access at 978 MHz for smaller planes known as general aviation aircraft; a Traffic Information Service, or TIS-B; and a Flight Information Service, or FIS-B, which covers weather and aeronautical data.

GPS signals are used because the technology is not only newer and more advanced, but it also covers more data. Each plane can be assigned a unique identifier, and the flight numbers can be matched and relayed to surrounding planes, showing pilots “nearby” flights that might be above or below a given plane but still in the vicinity.

Initial deployment is in Florida, along with some additional sites in Alaska, according to ITT and FAA officials. The program will roll out nationally over the next few years, ITT said.

For a carrier such as United Parcel Service Inc. — which operates 1,900 daily flights to and from its Louisville, Ky., flight hub using 266 aircraft domestically — more traffic information is better, says Mike Mangeot, a public-relations manager for the firm.

“You can get planes much more closely, particularly as they arrive, which allows for a greater number of planes to land within a fixed window of time,” Mr. Mangeot said in a telephone interview. “On the departure side, there’s increased awareness on the ground so that when planes are taxiing to go out, everybody knows where everyone is, so you can be more efficient as well.”

There’s even an environmental benefit to being able to better space incoming and outgoing flights, something UPS has tested with six of its aircraft, Mr. Mangeot added. The system allows UPS pilots to perform a “continuous descent” landing, he explained, which saves fuel and cuts emissions.

“Based on our limited test data, continuous descent approaches you can do using ADS-B will reduce fuel consumption by 40 to 70 gallons per landing, when you multiply in terms of daily flights, adds up over time. It also reduces nitrous oxide emissions by 34 percent and noise levels by about 30 percent over a typical step-down landing,” Mr. Mangeot said.

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