Attrition: Bad News Never Gets Old
July 3, 2014: The mass media recently made much of a study of American UAV accident reports. These revealed that since 2001 there have been 194 major accidents (an incident causing more than two million dollars’ worth of damage, which usually, but not always, means the UAV was too badly damaged to be repaired) since 2001. That’s about 15 a year. This is old news to people in the military of those who read military aviation publications regularly.
The high accident rate for large UAVs was never a secret and was hotly debated in the aviation and military media for over a decade. These days the accident rate is considered an old problem that has been tended to. For example in early 2014 the U.S. Air Force announced that its 23 RQ-4 Global Hawk UAVs were the aircraft with the best safety record in the air force during 2013. At thirteen tons the Global Hawk is the size of a commuter airliner (like the Embraer ERJ 145) but costs much more. Global Hawk can be equipped with much more powerful, and expensive, sensors than other UAVs. This record year for safety was not sudden as over the previous two years the RQ-4 had been very reliable, with aircraft being ready for action 95 percent of the time. In over a decade of use air force RQ-4s have spent over 100,000 hours in the air.
This record setting safety record for the RQ-4 was part of a trend. In 2011 the large U.S. Air Force UAVs (MQ-1 Predator, MQ-9 Reaper, and RQ-4 Global Hawk) had an accident rate of 3.8 per 100,000 hours, which was lower than that of the F-16. For years the F-16 has been one of the safest manned fighter aircraft in service. By way of comparison, the F-22 an accident rate is about 6 per 100,000 hours. F-15s and F-16s have an accident rate of 4 per 100,000 flight hours.
Despite the current success it’s been a rough decade for air force UAVs. Some 20 percent of the air force Predator and Reaper UAVs have been lost to accidents. This spurred the air force to make UAVs more reliable and reduce the loss rate. In 2010 the accident rate for its MQ-1 Predators was down to about 5 and it was expected that this would continue declining. In 2009 the UAV rate was twice the rate of manned fighter aircraft (like the F-15 or F-16) and four times the rate of the old but very reliable B-52. Note that the UAV accident rate is lower than that of single engine private aircraft (8). Reapers had a slightly higher rate than the older (and more numerous) Predator.
Only a few years earlier the loss rate for the 1.1 ton MQ-1 Predator was 30. The 4.7 ton larger MQ-9 Reaper had a loss rate of about 15 in 2010, after four years in service. It was not long after September 11, 2001 that the MQ-9 made its first flight. The Predator has been in action since the late 1990s. The design and operation of the MQ-9 learned much from the experience of the MQ-1. For two decades now engineers have been seeking ways to make these unmanned aircraft more reliable and resistant to accidental loss. It’s been difficult because these aircraft have been used heavily in many different climates and under combat conditions since 2001. Safety features that worked in Iraq often did not work in Afghanistan. UAV operator training had to be tweaked as well. Experienced pilots of manned aircraft often did less well operating UAVs than non-pilots who learned how to fly on simulators. It seems that there were things pilots of manned aircraft had to unlearn before they could handle UAVs more effectively.
There was never any doubt that the accident rates would come down and many engineers believed it was possible to make UAVs safer than manned aircraft. Previously, unmanned aircraft always had a much higher loss rate, which was partly the result of not having a pilot on board (who could “feel” the aircraft) and the inability to compensate for that. Older model UAVs had much higher rates. The 1980s era RQ-2A Pioneer had an annual rate of up to 363 per 100,000 hours. Despite that, the RQ-2 proved very useful during the 1991 Gulf war.
Despite UAVs being cheaper, the air force always knew they would have to reduce the accident rate to make these aircraft competitive with manned ones. This was ultimately accomplished with cheaper and more effective sensors and flight controls as well as better analysis of how operators succeeded or failed. All that effort has paid off. http://www.strategypage.com/htmw/htatrit/articles/20140703.aspx