Radar Scan: Making Runways Safer

Monday, August 8, 2011 @ 05:08 PM gHale

Airplanes undergo significant stresses during take-off and landing, and parts often become detached, leaving bits and pieces of the airplane on the runway.

Airport workers’ only way to monitor runways was the old fashioned way, visual recognition.

Now, a new radar system is set to increase safety at airports.

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Most people can still recall the Concorde crash. Television images showing the supersonic jet with flames streaming from its tail were unforgettable. There was a piece of metal lying on the runway during take-off that caused the accident. The aircraft’s tire burst as it rolled over the metal, sending chunks of rubber flying into the fuel tank, which then exploded, killing 113. To avoid accidents such as this, airport staff drive up and down runways at six-hour intervals looking for any pieces of debris. But to monitor the huge areas in question without any kind of technical assistance is time-consuming and error-prone work – especially in bad weather, for instance when fog is obscuring the view. And the intervals between checks are also too long.

New radar system should hike runway safety at airports.

New radar system should hike runway safety at airports.

A new weatherproof safety system will be able to monitor runways continuously for debris and warn of any dangers, according to research scientists at the Fraunhofer Institutes for High Frequency Physics and Radar Techniques FHR and for Communication, Information Processing and Ergonomics FKIE. They are developing the system in conjunction with the University of Siegen, PMD Technologies GmbH and Wilhelm Winter GmbH in a project called LaotSe – short for “Airport runway monitoring through multimodal networked sensor systems.”

“Our technology would have prevented the Concorde tragedy from happening,” said Dr. Helmut Essen, who heads the Millimeter-Wave Radar and High Frequency Sensors department at the FHR in Wachtberg. “Devices installed all along the runway continuously scan the surface. They can detect even the smallest of items, such as screws, but the system will only issue a warning if an object remains on the runway for a longer period of time. A windblown plastic bag or a bird resting briefly will not set off the alarm.”

The system comprises an infrared camera, optical 2D and 3D cameras and networked radar sensors developed by researchers at the FHR. The three different types of equipment complement each other: Radar functions around the clock and any kind of weather. It can detect objects but not identify them. The cameras are better suited to classifying objects, but they can feel the affects of the weather and the time of day. Whenever a radar sensor detects something, it instructs the cameras to take a closer look. All the sensor data then come together using software developed at the FKIE to produce a situational overview. The FKIE experts call this “sensor data fusion.” If the overview shows an abnormal situation, it then notifies air traffic control. They can take a look at their screens to judge whether there is a real danger and, if so, halt air traffic. “Our solution is merely an assistance system. The final decision on how to proceed lies with airport staff,” said Dr. Wolfgang Koch, head of department at the FKIE.

While similar radar systems are out there, they are only capable of detecting metal objects, and they often give rise to false alarms, Essen said. What is more, because they are high up on masts they can suffer damage in the event of an airplane accident.

“Our radar sensor transmits at a frequency of 200 GHz, so it can detect objects that are just one or two centimeters across,” Essen said. “And using three different kinds of sensor means false alarms are almost out of the question. The device is miniaturized and scans up to 700 meters in all directions.”

Initial testing of a radar sensor and camera will begin at Cologne-Bonn airport this fall, and plans are in place for further testing using several demonstrator systems before the project ends in April 2012.

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