Loss of control (aeronautics) explained

In aeronautics, loss of control (LOC) is the unintended departure of an aircraft from controlled flight and is a significant factor in several aviation accidents worldwide. In 2015[1] it was the leading cause of general aviation accidents.[2] Loss of control may be the result of mechanical failure, external disturbances, aircraft upset conditions, or inappropriate crew actions or responses.[2]

Causes

Loss of control causes aircraft to depart from normal flight and possibly reach altitudes or encounter situations from which it can be difficult or impossible to recover, such as a stall or a spin.[1] Due to the certification and design processes, it is extremely rare for aircraft to experience a loss of control without extreme mishandling or a technical defect. [3]

A NASA study focused on identifying causal factors and addressing mitigation challenges related to aircraft loss of control had developed a preliminary list of contributing factors through a process that involved interviews, reviews of accident reports, and team analysis of available data. Causal factors in the list were segregated into three categories: (1) pilot- or human-induced; (2) environmentally-induced; and (3) systems-induced. The following list does not order the causal factors by frequency of occurrence or importance.[4]

Contributing factors involving inappropriate pilot actions may include:[1]

Notable accidents

Loss of control has been the cause of many air disasters, some of which are listed below.

External links

Notes and References

  1. Web site: Fly Safe: Prevention of Loss of Control Accidents. Federal Aviation Administration. 2016-11-15.
  2. Web site: Loss of Control Prevention and Recovery: Onboard Guidance, Control, and Systems Technologies. Christine M.. Belcastro. 13 August 2012 . NASA Langley Research Center. 2016-11-15.
  3. Anderson. Carolina. Smith. MaryJo. 2017-09-20. Qualitative Analysis of Loss of Control Aircraft Accidents Using Text Mining Techniques. International Journal of Aviation, Aeronautics, and Aerospace. 4. 4. 10.15394/ijaaa.2017.1095. 2374-6793. free.
  4. https://ntrs.nasa.gov/archive/nasa/casi.ntrs.nasa.gov/20100039467.pdf
  5. Web site: ASN Aircraft accident Yakovlev 42 CCCP-42529 Mozyr. aviation-safety.net. 2018-05-18.
  6. Web site: Aircraft Accident Investigation Report; Japan Airlines Co., Ltd.; Boeing 747 SR-100, JA8119; Gunma Prefecture, Japan; August 12, 1985. June 19, 1987. Japan Ministry of Transport .
  7. Web site: ASN Aircraft accident Tupolev 154M B-2610 Xian-Xianyang International Airport (XIY). aviation-safety.net. 2018-05-18.
  8. Web site: ASN Aircraft accident Boeing 737-291 N999UA Colorado Springs, CO. aviation-safety.net. 2018-05-18.
  9. Web site: ASN Aircraft accident Boeing 757-23A N52AW Lima, Peru. Harro. Ranter. www.aviation-safety.net.
  10. Web site: ASN Aircraft accident McDonnell Douglas DC-9-83 (MD-83) N963AS Anacapa Island, CA. aviation-safety.net. 2018-05-18.
  11. Web site: ASN Aircraft accident Boeing 737-204 Adv. HP-1205CMP Tucutí. aviation-safety.net. 2018-05-18.
  12. Web site: ASN Aircraft accident Boeing 747-48EF HL7604 Jeju, South Korea [East China Sea]]. aviation-safety.net. 2018-05-18.
  13. Web site: ASN Aircraft accident Beechcraft 1900D N233YV Charlotte-Douglas International Airport, NC (CLT). aviation-safety.net. 2018-05-18.
  14. Citation error. See inline comment how to fix.
  15. https://archive.today/20130123100946/http://www.flightglobal.com/news/articles/great+escape-191713/ Great escape
  16. "Air Crash Investigators"