Scientists from the laboratory, part of the British Ministry of Defense, have led the technical development of a pioneering approach to a problem they describe as low-visibility landing, otherwise known as helicopter brownout.

The phenomenon is said to occur when pilot have their sight disrupted by plumes of dust or sand during landing or takeoff.

The project is in conjunction with other industry experts, including AgustaWestland, which helped analyze data on helicopter brownout.

"They also conducted a rapid technology assessment of as many available solutions as possible including simulator trials of one of the most promising technologies: three-dimensional conformal symbology," the Defense Ministry said in a statement.

The technique, experts explained, includes a small helmet-mounted display that feeds a virtual 3-D representation of the landing zone and stays fixed to the Earth as the aircraft is landed in sandy or dusty areas.

The technology was showcased at an industry event at the Honorable Artillery Company in central London as part of the government's National Science and Engineering Week.

There was no indication as to the cost of the research or the cost of the new technology that could ease British helicopter operations in Afghanistan.

The Defense Ministry said the technology was being carefully designed to "augment the real-world picture but also to provide all relevant information to allow the pilot to easily judge height, speed and drift," in landing or takeoff mode. "It then replaces the real-world cues when they are obscured by dust," affording even 24-hour capability with night vision offered by the technology.

"Brownout is a dangerous problem faced daily by U.K. helicopter crews in Afghanistan, when you come in to land the amount of dust blown up can completely obscure all visual references," said Maj. John Peters of British army air corps, lead test pilot for the program.

"This makes landing more difficult and dangerous and increases the risk of damage. The development of the low-visibility landing system will allow helicopter crews to land much more safely in these conditions, giving them references when they would otherwise be blind."

The Defense Science and Technology Laboratory has conducted flight trials in a Lynx helicopter in Hampshire. The team also conducted additional simulator trials using front-line Merlin chopper crew to refine the solution and conduct a large number of helicopter takeoffs and landings to confirm that the system does facilitate helicopter pilots, the ministry said.

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