Pilots Sleeping in the Cockpit Could Improve Airline Safety

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Airline pilots are often exhausted. An extreme example happened in 2008, when a pilot and a co-pilot both fell asleep at the controls, missing their landing in Hawaii – earning pilot’s license suspensions as well as getting fired. More recently, overtired pilots came very close to landing on top of another airplane at San Francisco International Airport in 2017.

It’s not uncommon for a pilot for a major commercial airline to, for instance, start work in Florida at 5 p.m., with her first flight departing an hour later for a five-hour trip across the country, arriving in California just after 8 p.m. local time. Then she might get a short break and fly a 90-minute short-hop flight to to another California city. When she lands from this second flight, she has spent six and a half hours of the last nine in the cockpit. She is also three time zones from where she started work, and her body thinks it’s 2 a.m. There’s no doubt she’s tired – and she’s lucky not to have encountered any schedule adjustments for aircraft maintenance or weather delays.

The airline industry and the government agency that regulates it, the Federal Aviation Administration, have taken steps to reduce pilot fatigue, but many pilots and others remain worried that two pilots are required to remain awake and alert for the entire flight, though one or both may be dealing with symptoms of fatigue. One possible suggestion is letting pilots take brief naps in the cockpit. As researchers of consumer opinions about the airline industry, we’ve found that the American public is wary of this idea, but may feel better about it once they’ve heard an explanation of how it actually makes their flights safer.

Limiting pilots’ work time

Pilot fatigue can be difficult to predict or diagnose – especially since tired pilots usually manage to take off, fly and land safely. Even when something goes wrong, accident investigators may have little evidence of fatigue, except perhaps the sound of someone yawning on cockpit audio recordings.

In 2014, the FAA imposed the first new pilot-rest rules in 60 years, limiting overall on-duty time and flight hours per day depending on when a pilot’s shift starts. The rules also established a process by which pilots can report fatigue without being disciplined by their airlines or the government.

Resting in the cockpit

It’s widely known that a short nap can improve a pilot’s alertness. Some planes, such as those commonly used on long international flights, have beds their pilots and other crew can use, but smaller planes don’t have the space. Only flights that are longer than eight hours require an additional pilot to be on board so one pilot at a time can rotate out for rest. On shorter flights, U.S. regulations expect both pilots to remain alert for the entire length of the flight, without any chance for rest during the flight.

Some countries, including Canada and Australia, allow for pilots to nap in the cockpit. In an example from China, a pilot was caught napping and faced disciplinary action for napping in the cockpit. The official procedure to allow for pilots to nap in the cockpit is called “controlled rest in position.” CRIP has established policies and procedures to allow pilots to rest.

The rules are strict. The Air Canada Flight Operations Manual, for instance, says a pilot who wants to rest must notify the co-pilot and a flight attendant. The pilot can sleep for no more than 40 minutes, and must wake up at least half an hour before the descent for landing. They get the first 15 minutes after the nap to fully awaken, during which they can’t resume actually flying the plane, unless they need to help deal with an emergency.

Consumers’ opinions

As consumer opinion experts, we have conducted a series of studies to see what members of the public think about letting pilots use this CRIP procedure to nap in the cockpit. In general, people are less willing to fly when they know a pilot might be allowed to sleep at the controls, and women are less willing than men.

In our research, we find that this is mostly attributed to fear, because they don’t understand the benefits of pilot naps. Some of our earlier work has shown that when consumers understand the value of a new procedure, they’ll feel better about it. It seems likely that explaining to people how better-rested pilots makes a flight safer could help more people feel comfortable flying in a plane where the CRIP procedure is allowed.

What do pilots think?

In a follow-up study, we asked pilots what they thought about being allowed to rest in the cockpit during flight – and they were much more enthusiastic than nonpilots. Seventy percent of pilots favored allowing CRIP. On average, all participants who completed the survey felt that naps of 45 minutes should be approved, which was closely related to the 40 minutes suggested by scientific evidence. They also recognized the need for the pilot to be awake at least 30 minutes before beginning the descent to landing. Overall, the participants thought there were very few potential problems with CRIP and said it would be useful.

However, some pilots did express worry about unintended consequences of CRIP implementation. The airlines, knowing that pilots could take naps during the flight, might be tempted to impose more rigorous flight schedules that would eliminate any benefits derived from CRIP. Lastly, participants commented on how this procedure is already being used by international carriers such as Air Canada and Qantas with success. So far, those companies’ crews have not registered widespread complaints about abuse of scheduling practices, and none of the survey respondents who fly for those airlines complained about this potential problem.

Will the US allow it?

It is hard to say whether the FAA would ever move to let U.S. pilots nap in the cockpit. The scientific research provides empirical evidence as to its advantages, and while consumers are somewhat hesitant, pilots seem very supportive of it.

What is clear is that fatigue in the cockpit remains a threat to the aviation industry worldwide. Given the scientific evidence supporting CRIP to counter fatigue, clearly there is value in considering how it could improve aviation safety. Perhaps it’s time to listen to the pilots we trust to fly these airplanes and let them rest when they need to – within reason, and so they can fly more safely.

Article was originally published on The Conversation.




SOURCEAero Crew News, March 2020
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Dr. Stephen Rice was born and raised in Indonesia. He is currently a professor in the Human Factors and Behavioral Neurobiology Department at Embry Riddle Aeronautical University. He received his Ph.D. in Engineering Psychology (Aviation Human Factors) from the University of Illinois at Urbana-Champaign in 2006. Dr. Rice began his academic career at the University of Illinois, working under Dr. Christopher Wickens on research involving unmanned aerial systems (UAS). The primary focus was trust in automation, largely from the perspective of the UAS operator. Following that, he was faculty at New Mexico State University, where he continued his work on UAS. While at NSMU, he also became interested in the intersections between aviation and social psychology, and began researching consumer perceptions of autonomous aircraft. In 2013, Dr. Rice moved to the Florida Institute of Technology, where he continued his research in consumer perceptions, focusing on both manned and unmanned aircraft. An additional line of research was developed concerning aviation sustainability, biofuels and green airports. In 2016, Dr. Rice moved to Embry-Riddle Aeronautical University in Daytona Beach, Florida where he continues his research. He has also expanded his research to include the public’s willingness to interact with a variety of autonomous vehicles, as well as into medical and dental robotics. Dr. Rice has completed over $2 million in funded research as the Principal Investigator or Co- Principal Investigator. Dr. Scott R. Winter is an Assistant Professor of Graduate Studies in the School of Graduate Studies, College of Aviation at Embry-Riddle Aeronautical University, Daytona Beach. His primary responsibilities involve teaching graduate-level courses in research methods, quantitative data analysis, and qualitative data analysis. Dr. Winter maintains an active research agenda, which focuses on pilot decision-making and consumer perceptions toward automation. His recent focus has been dealing with urban air mobility (UAM) and autonomous air taxis. He has authored/co-authored over 50 peer-refereed journal articles, over 80 conference proceedings, and conducted more than $700,000 in external funding. He is currently the dissertation chair for eight Ph.D. students and he serves as a committee member on six other dissertation committees. Dr. Winter completed his Ph.D. in the Aviation Technology department at Purdue University in West Lafayette, Indiana (2013) and his undergraduate and master’s degrees at Minnesota State University, Mankato. His Bachelor’s degree is in professional flight with a minor in geography (2005), and his Master’s degree is in Cross-Disciplinary Studies (2006) with emphasis areas on aviation and education. For his time in industry, Dr. Winter was employed with Cirrus Aircraft in Duluth, Minnesota from October 2006 until December 2009. While employed with Cirrus, he worked as a member of the Flight Standards and Operations Department. In that role, he served as a company check airman and provided initial and recurrent training to company pilots. Dr. Winter also wrote a monthly website called Pilot’s World addressing safety and pilot training issues. His time at Cirrus offered him the opportunity to gain experience working for one of the world’s leading general aviation manufacturers and to fly one of the most advanced, single-engine piston aircraft. He completed international training with Cirrus flying training missions in South Africa, Australia, Brazil, the Caribbean, England, France, Germany, and Poland.

2 COMMENTS

  1. This really should be a no-brainer. There’s tons of research and data that shows the many benefits of short naps. Add in strict rules, like other countries/airlines and the risks should be mitigated. Even the US Air Force Aerospace Physiology teaches that napping 35-40 minutes is fatigue fighting.

  2. This idea was floated in the late ’90’s and early 2000’s and all it did was substitute a short nap with very short-term benefits for good REM rest. It also encouraged airlines to schedule more harshly, using the CRIP as justification for work rules that put pilots at risk on all-night flights followed by a “tag-leg” added after the all nighter. The other problem is west coast pilots having early departures off the east coast for west-cost destinations meaning that crews flying “daylight all-nighters” were thoroughly fatgued when making approaches 4 hours later. Companies schedule west coast crews for early east coast departures so they can save a few bucks – but they put pilots and pax at risk doing so – now using CRIP to deny that different scheduling rules are necessary. CRIP is NOT an adequate substitute for crew rest and should only be used on international flights where multiple time-zones are crossed multiple times.

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