Air traffic controller: Difference between revisions
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{{Short description| | {{Short description|Person directing aircraft}} | ||
{{distinguish|Flight dispatcher|flight controller}} | {{distinguish|Flight dispatcher|flight controller}} | ||
{{Other uses|Air traffic controller (disambiguation)}} | {{Other uses|Air traffic controller (disambiguation)}} | ||
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| type= [[Profession]] | | type= [[Profession]] | ||
| activity_sector= [[Aviation|Civil aviation]] or [[Military]] | | activity_sector= [[Aviation|Civil aviation]] or [[Military]] | ||
| competencies= good [[short-term memory]], [[situational awareness]], communication and multitasking skills, quick and assertive decision making abilities, ability to perform under [[Stress (biology)|stress]] or pressure, flexibility and general [[aversives|situational aversives]]. | | competencies= good [[short-term memory]], [[situational awareness]], attention to detail, communication and multitasking skills, quick and assertive decision making abilities, ability to perform under [[Stress (biology)|stress]] or pressure, flexibility and general [[aversives|situational aversives]]. | ||
| formation= Certification by local aviation authority (e.g. [[FAA]]) under [[ICAO]] rules and regulations. | | formation= Certification by local aviation authority (e.g. [[FAA]]) under [[ICAO]] rules and regulations. | ||
| employment_field= Public and private sectors, both military and civil. Varies by country. | | employment_field= Public and private sectors, both military and civil. Varies by country. | ||
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}} | }} | ||
An ''' | An '''air traffic controller (ATC)''' is a person responsible for the coordination of air traffic within [[controlled airspace]]. Typically they work in [[area control center]]s or [[control tower]]s, where they monitor aircraft movements and maintain direct communication with the pilots. | ||
The profession is considered to be highly demanding and stressful | The profession dates back to the early 20th century, evolving alongside advances in aviation and [[Radar|radar technology]] to meet the growing demands of air travel. | ||
It is considered to be highly demanding and stressful, requiring continuous decision-making and adaptability, often under time pressure. Factors such as unfavorable work schedules, high responsibility and the reliability of equipment further influence workload and stress levels.<ref>{{Cite book |last=Costa |first=Giovanni |url=https://www.ilo.org/sites/default/files/wcmsp5/groups/public/@ed_protect/@protrav/@safework/documents/publication/wcms_250120.pdf |title=Occupational Stress and Stress Prevention in Air Traffic Control |date=1996 |publisher=International Labour Office |isbn=978-92-2-110070-6 |location=Geneva |pages=1–3}}</ref> Despite these challenges, the role offers competitive salaries and strong job security, which are often cited as key benefits.<ref name="bls">{{Cite web |title=Air Traffic Controllers |url=https://www.bls.gov/ooh/transportation-and-material-moving/air-traffic-controllers.htm |access-date=2025-02-03 |website=Bureau of Labor Statistics |language=en-us}}</ref> | |||
== History == | == History == | ||
=== Origins === | === Origins === | ||
Air traffic controlling dates to the early 1920s in the | [[File:Archie League (cropped).jpg|thumb|Archie League on duty at [[Saint-Louis Airport]] with his equipment such as [[Flag signals|signaling flags]] stored in a wheelbarrow.]] | ||
[[File:A Waaf Corporal Ach-gd Watches From the Control Tower As An Aircraft Comes in CH8136.jpg|thumb|A [[Women's Auxiliary Air Force]] Corporal watching an aircraft approach from a control tower during World War II. On the table are a radio receiver, hand-held [[Signal lamp|Aldis signalling lamp]], and log book.]] | |||
Air traffic controlling dates to the early 1920s in the UK; the first [[Air traffic control|control tower]] was established on 25 February 1920 at [[Croydon Airport]].<ref>{{Cite news |last=Plush |first=Hazel |date=2020-02-25 |title=100 years of air traffic control: how a tiny shed at Croydon Airport changed travel forever |url=https://www.telegraph.co.uk/travel/travel-truths/first-air-traffic-control-croydon/ |access-date=2025-07-06 |work=The Telegraph |language=en-GB |issn=0307-1235}}</ref> In 1922 [[Jimmy Jeffs]] was issued the first Air Traffic Control License.<ref>{{Cite book |last=Pleter |first=Octavian Thor |url=https://books.google.com/books?id=MZ8DEQAAQBAJ&dq=%22Jimmy+Jeffs%22%2C+controller&pg=PR7 |title=Air navigation: fundamentals, systems, and flight trajectory management |date=2024 |publisher=Springer |isbn=978-3-031-52994-8 |series=Springer aerospace technology |location=Cham |pages=675}}</ref> In the US, [[Archie League]] is regarded as the first air traffic controller and was hired by the city of [[St. Louis]] in 1929 to prevent collisions.<ref name="photo">{{Cite web |date=16 Nov 2021 |title=Photo Album - Air Traffic Control |url=https://www.faa.gov/about/history/photo_album/air_traffic_control |archive-url=https://web.archive.org/web/20250129122921/https://www.faa.gov/about/history/photo_album/air_traffic_control |archive-date=29 Jan 2025 |access-date=4 Feb 2025 |work=[[Federal Aviation Administration]]}}</ref> Early controllers relied on simple visual signaling methods such as flags to communicate with pilots.<ref name="photo" /><ref>{{Cite web |last=NATCA |date=4 Feb 2025 |title=A History of Air Traffic Control |url=https://www.natca.org/wp-content/uploads/2019/12/NATCA_ATC_History.pdf |archive-url=https://web.archive.org/web/20240512012956/http://www.natca.org/wp-content/uploads/2019/12/NATCA_ATC_History.pdf8 |archive-date=May 12, 2024 |access-date=4 Feb 2024}}</ref> | |||
=== Introduction of radar and radio communication === | === Introduction of radar and radio communication === | ||
In 1930 [[Cleveland Airport]] opened the first tower using two-way radio communication and in 1946 [[Weir-Cook Airport|Indianapolis International Airport]] (then Weir-Cook airport) became the first civilian airport to have radar installed.<ref name="photo" /> This allowed controllers to monitor aircraft positions in real-time, even in poor visibility conditions. Together with radio communication with the pilots, this laid the foundation for [[Ground-controlled approach|Ground Control Approaches]] and later [[Instrument landing system|Instrument landing system (ILS)]].<ref name="airandspace">{{Cite web |date=2021-10-21 |title=Air Traffic Control |url=https://airandspace.si.edu/explore/stories/air-traffic-control |access-date=2025-02-05 |website=airandspace.si.edu |language=en}}</ref> These innovations fundamentally changed the profession of air traffic controllers from guidance and ground controlling to actively guiding planes that are already in the air and making sure they land safely.<ref name="airandspace"/> | |||
In 1930 [[Cleveland Airport]] opened the first tower using two-way radio communication and in 1946 [[Weir-Cook Airport|Indianapolis International Airport]] (then Weir-Cook airport) became the first civilian airport to have radar installed.<ref name=" | |||
=== Developments until today === | === Developments until today === | ||
Since the introduction of radar in the 1950s, the field of air traffic control is still undergoing major innovations; [[Automatic Dependent Surveillance–Broadcast]] (ADS-B) technology is being expanded world wide providing even more accurate position information to the controller providing them with more advanced assistance systems.<ref name=" | Since the introduction of radar in the 1950s, the field of air traffic control is still undergoing major innovations; [[Automatic Dependent Surveillance–Broadcast]] (ADS-B) technology is being expanded world wide providing even more accurate position information to the controller providing them with more advanced assistance systems.<ref name="technology">{{Cite web |title=The Role of Technology in Modern Air Traffic Control |url=https://www.careerroo.com/magazine/the-role-of-technology-in-modern-air-traffic-control/ |access-date=2025-02-05 |website=Careerroo |language=en}}</ref> | ||
=== Future prospects === | === Future prospects === | ||
{{See also|Next Generation Air Transportation System}} | {{See also|Next Generation Air Transportation System}} | ||
With new technologies such as [[artificial intelligence]] emerging, efforts to automate certain tasks of ATCs began.<ref name=" | With new technologies such as [[artificial intelligence]] emerging, efforts to automate certain tasks of ATCs began.<ref name="technology" /> | ||
The focus of the industry is on the development of assisting and predicting artificial intelligence tools as well as the automation of repetitive tasks rather than attempts to replace the controllers.<ref name=" | The focus of the industry is on the development of assisting and predicting artificial intelligence tools as well as the automation of repetitive tasks rather than attempts to replace the controllers.<ref name="ai">{{Cite web |date=2024-11-29 |title=How AI is being piloted to help direct air traffic at Heathrow airport |url=https://www.euronews.com/next/2024/11/29/one-of-the-worlds-busiest-airports-is-piloting-using-ai-to-assist-air-traffic-control |access-date=2025-02-05 |website=euronews |language=en}}</ref><ref>{{Cite web |last=Pritchett |first=Amy |date=2024-02-12 |title=Why AI can't replace air traffic controllers |url=https://edition.cnn.com/travel/why-ai-cant-replace-air-trafficcontrollers/index.html |access-date=2025-02-05 |website=CNN |language=en}}</ref><ref>{{Cite web |date=2024-10-15 |title=Digitalisation and AI in air traffic control: balancing innovation with the human element {{!}} EUROCONTROL |url=https://www.eurocontrol.int/article/digitalisation-and-ai-air-traffic-control-balancing-innovation-human-element |access-date=2025-02-05 |website=eurocontrol.int |language=en}}</ref> There is a consensus among developers and airport operators that, in the foreseeable future, air traffic controllers will tend to be more of a system manager overseeing decisions made by automated systems and intervening to resolve unexpected situations, which is currently one of the most difficult tasks for artificial intelligence, making full replacement unlikely.<ref>{{Cite web |date=2024-06-19 |title=What Changes Could We See In The Future Of Air Traffic Control? |url=https://www.copperchase.co.uk/changes-could-see-air-traffic-control/ |access-date=2025-02-05 |website=Copperchase |language=en-US}}</ref><ref name="ai" /><ref>{{Cite news |title=Innovation in the air traffic control service |url=https://www.innosuisse.admin.ch/en/innovation-in-the-air-traffic-control-service |archive-url=https://web.archive.org/web/20250205234323/https://www.innosuisse.admin.ch/en/innovation-in-the-air-traffic-control-service |archive-date=2025-02-05 |access-date=2025-02-05 |url-status=live }}</ref><ref>{{Cite book |last=SESAR Joint Undertaking. |url=https://data.europa.eu/doi/10.2829/945876 |title=Automation in air traffic management :long term vision and initial research roadmap : summary report. |date=2020 |publisher=Publications Office |location=LU |doi=10.2829/945876|isbn=978-92-9216-159-0 }}</ref> One challenge with partially automated workflows is the potential for skill and knowledge disintegration due to reduced daily practice. One possible solution is the use of computer-based training or [[simulation]] technologies to maintain continuous learning and proficiency.<ref>{{Cite web |work=EASA Together4Safety |publisher=[[European Union Aviation Safety Agency]] |date=4 Aug 2021 |title=Safety Issue Report – Skills and Knowledge Degradation due to Lack of Recent Practice |url=https://www.easa.europa.eu/community/system/files/2021-08/Safety%20Issue%20Report%20-%20%20Skills%20and%20Knowledge%20Degradation_REV2%20Clean_0.pdf |archive-url=https://web.archive.org/web/20241001112128/https://www.easa.europa.eu/community/system/files/2021-08/Safety%20Issue%20Report%20-%20%20Skills%20and%20Knowledge%20Degradation_REV2%20Clean_0.pdf |archive-date=1 Oct 2024 |access-date=6 Feb 2025}}</ref> | ||
An alternative approach to modernization is the implementation of fully digital [[Remote and virtual tower|remote and virtual towers]]. This method replaces the conventional physical control tower with remote facilities utilizing digital technologies and information dense, virtual environments to manage air traffic operations.<ref>{{Cite journal |last1=Ruihan |first1=Liang |last2=Weijun |first2=Pan |last3=Qinghai |first3=Zuo |last4=Chen |first4=Zhang |last5=Shenhao |first5=Chen |last6=Sheng |first6=Chen |last7=Leilei |first7=Deng |date=May 2025 |title=Modeling Visual Fatigue in Remote Tower Air Traffic Controllers: A Multimodal Physiological Data-Based Approach |url=https://www.mdpi.com/2226-4310/12/6/474 |journal=Aerospace |language=en |doi=10.3390/aero |doi-broken-date=6 July 2025 |doi-access=free |issn=2226-4310 |archive-url=https://web.archive.org/web/20250527154133/https://www.mdpi.com/2226-4310/12/6/474 |archive-date=27 May 2025 |access-date=6 July 2025 |url-status=live }}</ref><ref>{{Cite journal |last1=Pan |first1=Weijun |last2=Liang |first2=Ruihan |last3=Wang |first3=Yuhao |last4=Song |first4=Dajiang |last5=Yin |first5=Zirui |date=2025-03-25 |title=Situational Awareness Prediction for Remote Tower Controllers Based on Eye-Tracking and Heart Rate Variability Data |journal=Sensors |language=en |volume=25 |issue=7 |pages=2052 |doi=10.3390/s25072052 |doi-access=free |issn=1424-8220 |pmc=11991212 |pmid=40218565|bibcode=2025Senso..25.2052P }}</ref><ref>{{Cite web |title=Remote ATC towers and the changing airport landscape |url=https://www.internationalairportreview.com/article/115098/remote-digital-towers-evolution-atm/ |access-date=2025-02-06 |website=International Airport Review |language=en}}</ref> Significant progress has already been made in this area, with the [[Örnsköldsvik Airport|first remotely controlled tower]] having opened in Sweden in 2014.<ref>{{Cite news |last=Clark |first=Nicola |date=2014-10-28 |title=Directing Planes, by Remote Control |url=https://www.nytimes.com/2014/10/28/business/international/directing-planes-by-remote-control.html |access-date=2025-07-06 |work=The New York Times |language=en-US |issn=0362-4331}}</ref> | |||
Another concern is the acceptance or willingness by the controllers to use such technology. In a study with 500 air traffic controllers Bekier et al. found that as soon as the focus of decision-making shifts away from the air traffic controller, support for the technology dramatically decreases.<ref>{{Cite journal |last1=Bekier |first1=Marek |last2=Molesworth |first2=Brett R. C. |last3=Williamson |first3=Ann |date=2012-02-01 |title=Tipping point: The narrow path between automation acceptance and rejection in air traffic management |url=https://www.sciencedirect.com/science/article/abs/pii/S092575351100230X |journal=Safety Science |volume=50 |issue=2 |pages=259–265 |doi=10.1016/j.ssci.2011.08.059 |issn=0925-7535|url-access=subscription }}</ref> | Another concern is the acceptance or willingness by the controllers to use such technology. In a study with 500 air traffic controllers Bekier et al. found that as soon as the focus of decision-making shifts away from the air traffic controller, support for the technology dramatically decreases.<ref>{{Cite journal |last1=Bekier |first1=Marek |last2=Molesworth |first2=Brett R. C. |last3=Williamson |first3=Ann |date=2012-02-01 |title=Tipping point: The narrow path between automation acceptance and rejection in air traffic management |url=https://www.sciencedirect.com/science/article/abs/pii/S092575351100230X |journal=Safety Science |volume=50 |issue=2 |pages=259–265 |doi=10.1016/j.ssci.2011.08.059 |issn=0925-7535|url-access=subscription }}</ref> | ||
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Area controllers (also called "en route" or in the US "center controllers") oversee aircraft at higher altitudes, in the en-route phase of their flight surrounding busier airports and airspace. In contrast to tower controllers, their job is dominated by the discovery of conflicts.<ref>{{Cite web |title=The Area Controller {{!}} SKYbrary Aviation Safety |url=https://skybrary.aero/articles/area-controller |access-date=2025-02-08 |website=skybrary.aero}}</ref> Area controllers may also handle aircraft at lower altitudes as well as air traffic around small airports that do not have their own towers or approach controllers.<ref>{{Cite web |title=APPENDIX E NATIONAL AIR TRAFFIC CONTROL SYSTEM |url=https://www.jeffco.us/DocumentCenter/View/860/Airport-Master-Plan-Update-Appendix-E-National-Air-Traffic-Control-System-PDF |access-date=19 Feb 2025 |website=Jeffco.us}}</ref> Area controllers are responsible for specific sectors of 3D blocks of airspace with defined dimensions. Each sector is managed by at least one area controller, known as an "R-side" (Radar) controller that handles radio communications. During busier times of traffic, there may also be a second area controller, known as a "D-side" (Data), assigned to the same area in order to assist the R-side Area controller.<ref>{{Cite web |title=Know Your Pros - Center Air Traffic Controllers (Part 1) |url=https://www.boldmethod.com/blog/2014/01/air-route-traffic-control-centers/ |access-date=2025-02-09 |website=boldmethod.com}}</ref> This can be done with or without the use of radar: radar allows a sector to handle much more traffic; however, [[procedural control]] is used in many areas where traffic levels do not justify radar or the installation of radar is not feasible, such as over oceans. | Area controllers (also called "en route" or in the US "center controllers") oversee aircraft at higher altitudes, in the en-route phase of their flight surrounding busier airports and airspace. In contrast to tower controllers, their job is dominated by the discovery of conflicts.<ref>{{Cite web |title=The Area Controller {{!}} SKYbrary Aviation Safety |url=https://skybrary.aero/articles/area-controller |access-date=2025-02-08 |website=skybrary.aero}}</ref> Area controllers may also handle aircraft at lower altitudes as well as air traffic around small airports that do not have their own towers or approach controllers.<ref>{{Cite web |title=APPENDIX E NATIONAL AIR TRAFFIC CONTROL SYSTEM |url=https://www.jeffco.us/DocumentCenter/View/860/Airport-Master-Plan-Update-Appendix-E-National-Air-Traffic-Control-System-PDF |access-date=19 Feb 2025 |website=Jeffco.us}}</ref> Area controllers are responsible for specific sectors of 3D blocks of airspace with defined dimensions. Each sector is managed by at least one area controller, known as an "R-side" (Radar) controller that handles radio communications. During busier times of traffic, there may also be a second area controller, known as a "D-side" (Data), assigned to the same area in order to assist the R-side Area controller.<ref>{{Cite web |title=Know Your Pros - Center Air Traffic Controllers (Part 1) |url=https://www.boldmethod.com/blog/2014/01/air-route-traffic-control-centers/ |access-date=2025-02-09 |website=boldmethod.com}}</ref> This can be done with or without the use of radar: radar allows a sector to handle much more traffic; however, [[procedural control]] is used in many areas where traffic levels do not justify radar or the installation of radar is not feasible, such as over oceans. | ||
Area controllers operate within [[area control center]]s, also known as centers or en-route centers.<ref>{{Cite web | Area controllers operate within [[area control center]]s, also known as centers or en-route centers.<ref>{{Cite web |title=En route controllers: Salary, career path, job outlook, education and more |url=https://www.raise.me/careers/transportation-and-material-moving/air-traffic-controllers/en-route-controllers/ |access-date=2025-02-09 |website=RaiseMe |language=en}}</ref><ref>{{Cite web |title=Recruitment of student Air Traffic Controllers |url=https://atco.eurocontrol.int/ |access-date=2025-02-09 |website=EUROCONTROL}}</ref> where they are controlling high-level en-route aircraft. In the US, these facilities are specifically referred to as Air Route Traffic Control Centers (ARTCCs).<ref>{{Cite web |title=Air Route Traffic Control Center (ARTCC) {{!}} SKYbrary Aviation Safety |url=https://skybrary.aero/articles/air-route-traffic-control-center-artcc |access-date=2025-02-09 |website=skybrary.aero}}</ref> Area controllers can also work in [[terminal control center]]s, which control aircraft climbing from or descending to major groups of airports. | ||
=== Aerodrome or tower === | === Aerodrome or tower === | ||
[[File:Control tower at Birmingham Airport, England 27June2019 arp.jpg|thumb|Controllers often work from a control tower like this one at [[Birmingham Airport]], England]]Aerodrome or Tower controllers control aircraft within the immediate vicinity of the airport and use visual observation from the airport tower. The tower's airspace is often a {{convert|5|nmi|km|adj=on}} radius around the airport, but can vary greatly in size and shape depending on traffic configuration and volume.<ref name=" | [[File:Control tower at Birmingham Airport, England 27June2019 arp.jpg|thumb|Controllers often work from a control tower like this one at [[Birmingham Airport]], England]]Aerodrome or Tower controllers control aircraft within the immediate vicinity of the airport and use visual observation from the airport tower. The tower's airspace is often a {{convert|5|nmi|km|adj=on}} radius around the airport, but can vary greatly in size and shape depending on traffic configuration and volume.<ref name="tower">{{Cite web |date=2023-12-05 |title=What is an airport control tower really for? |url=https://worldaviationato.com/en/airport-control-tower/ |access-date=2025-02-09 |work=World Aviation ATO |language=en}}</ref> | ||
The tower positions are typically split into many different positions such as Flight Data/Clearance Delivery, Ground Control, and Local Control (known as Tower by the pilots); at busier facilities, a limited radar approach control position may be needed.<ref name=" | The tower positions are typically split into many different positions such as Flight Data/Clearance Delivery, Ground Control, and Local Control (known as Tower by the pilots); at busier facilities, a limited radar approach control position may be needed.<ref name="tower" /> | ||
The roles of the positions are:<ref name=" | The roles of the positions are:<ref name="tower" /> | ||
* Flight Data/Clearance Delivery: Issues [[Instrument flight rules|IFR]] flight plan clearances, obtains squawk codes for [[Visual flight rules|VFR]] aircraft, helps with coordination for GC/LC, and cuts the [[Automatic terminal information service|ATIS]] (weather) | * Flight Data/Clearance Delivery: Issues [[Instrument flight rules|IFR]] flight plan clearances, obtains squawk codes for [[Visual flight rules|VFR]] aircraft, helps with coordination for GC/LC, and cuts the [[Automatic terminal information service|ATIS]] (weather). | ||
* Ground: Issues [[Taxiing|taxi]] instructions and authorizes aircraft/vehicle movements on the airport except the active runway(s); controllers are not responsible for aircraft movement on ramps or other designated non-movement areas. | * Ground: Issues [[Taxiing|taxi]] instructions and authorizes aircraft/vehicle movements on the airport except the active runway(s); controllers are not responsible for aircraft movement on ramps or other designated non-movement areas. | ||
* Local (Tower): Issues takeoff and landing instructions/clearances and authorizes aircraft/vehicle movements on or across runways. | * Local (Tower): Issues takeoff and landing instructions/clearances and authorizes aircraft/vehicle movements on or across runways. | ||
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=== Public/private === | === Public/private === | ||
Historically, controllers were civil servants | Historically, most controllers were civil servants. While in many countries still have public ATC services, some have implemented mixed or fully privatized models. For example, Canada was the first country to fully privatize its air traffic control services. Globally, the trend toward privatization varies.<ref>{{Cite news |last=Hernandez |first=Joe |date=2025-06-27 |title=Several countries have privatized air traffic control. Should the U.S.? |url=https://www.npr.org/2025/06/27/nx-s1-5442651/privatizing-air-traffic-control-faa |access-date=2025-09-02 |work=NPR |language=en}}</ref> | ||
== Working conditions == | == Working conditions == | ||
===Work patterns=== | ===Work patterns=== | ||
Typically, controllers work | Typically, controllers work between 90 and 120 minutes followed by a 30-minute break.<ref>{{Cite web |last=Eurocontrol |date=26 Apr 2023 |title=GUIDELINES ON FATIGUE MANAGEMENT IN ATC ROSTERING SYSTEMS |url=https://skybrary.aero/sites/default/files/bookshelf/34421.pdf |archive-url=https://web.archive.org/web/20241219235017/https://skybrary.aero/sites/default/files/bookshelf/34421.pdf |archive-date=19 Dec 2024 |access-date=9 Feb 2025 |website=skybrary.aero}}</ref> Except at smaller airports with little air traffic volume, air traffic control operates nonstop, requiring controllers to work rotating shifts that include nights, weekends, and public holidays. Shift schedules are usually set 28 days in advance.<ref>{{Cite web |last1=Arnvig |first1=Mette |last2=Beermann |first2=Beate |last3=Köper |first3=Birgirt |last4=Maziul |first4=Maren |last5=Mellett |first5=Úna |last6=Niesing |first6=Cees |last7=Vogt |first7=Joachim |date=14 Apr 2006 |title=Managing Shiftwork in European ATM: Literature Review |url=https://skybrary.aero/sites/default/files/bookshelf/5594.pdf |url-status=live |archive-url=https://web.archive.org/web/20241220094844/https://skybrary.aero/sites/default/files/bookshelf/5594.pdf |archive-date=20 Dec 2024 |access-date=9 Feb 2025 |website=Eurocontrol}}</ref> In many countries, the structure of controllers' shift patterns is regulated to allow for adequate time off. The shift pattern often varies depending on country, facility and its location. In the US the [[Federal Aviation Administration|Federal Aviation Administration (FAA)]] regulates the hours that an air traffic controller may work: controllers may not work more than 10 straight hours during a shift, which includes required breaks, and must have 9 hours of rest before their next shift.<ref>{{Cite web |title=Air Traffic Controllers |url=https://www.bls.gov/ooh/transportation-and-material-moving/air-traffic-controllers.htm#tab-3 |access-date=2025-04-12 |website=Bureau of Labor Statistics |language=en-us}}</ref> Additionally they usually work a relatively unique rotating shift schedule, called the 2-2-1. Working on this schedule means rotating between two afternoon shifts, two morning shifts and a midnight shift over the course of a week.<ref>{{cite web |last1=Della Rocco |first1=Pamela |last2=Cruz |first2=Crystal |title=Shift Work, Age, and Performance: Investigation of the 2-2-1 Shift Schedule Used in Air Traffic Control Facilities I. The Sleep/Wake Cycle |url=https://www.faa.gov/sites/faa.gov/files/data_research/research/med_humanfacs/oamtechreports/AM95-19.pdf |website=faa.gov |publisher=U.S. Department of Transportation : Federal Aviation Administration |access-date=7 October 2025 |archive-url=https://web.archive.org/web/20250322043836/https://www.faa.gov/sites/faa.gov/files/data_research/research/med_humanfacs/oamtechreports/AM95-19.pdf |archive-date=22 March 2025 |language=en |date=May 1995}}</ref> | ||
===Stress=== | ===Stress=== | ||
Many countries regulate work hours to ensure that controllers are able to remain focused and effective. Research suggests | Many countries regulate work hours to ensure that controllers are able to remain focused and effective. Research suggests that after prolonged periods of continuous work for more than two hours, performance can deteriorate rapidly, even at low traffic levels.<ref name="Hopkin1995">{{cite book |last=Hopkin |first=V. David |url=https://books.google.com/books?id=rJld6gXId3oC |title=Human Factors In Air Traffic Control |date=5 September 1995 |publisher=CRC Press |isbn=978-0-7484-0357-8 |pages=366–367 |chapter=17.7 Work-rest cycles}}</ref><ref>{{cite book |last1=Costa |first1=Giovanni |title=Automation and Systems Issues in Air Traffic Control |date=1991 |publisher=Springer-Verlag |isbn=978-3-642-76558-2 |editor1-last=Wise |editor1-first=J. A. |series=NATO ASI Series |volume=F73 |location=Berlin, Germany |pages=267–280 |chapter=Shiftwork and Circadian Variations of Vigilance and Performance |doi=10.1007/978-3-642-76556-8_27 |editor2-last=Hopkin |editor2-first=V. D. |editor3-last=Smith |editor3-first=M. L.}}</ref><ref>{{cite journal |last1=Folkard |first1=S. |last2=Rosen |first2=S. D. |date=1990 |title=Circadian performance rhythms: some practical and theoretical implications [and discussion] |journal=Philosophical Transactions of the Royal Society of London B: Biological Sciences |volume=327 |issue=1241 |pages=543–553 |doi=10.1098/rstb.1990.0097 |pmid=1970900 |doi-access=free}}</ref> The [[International Civil Aviation Organization|International Civil Aviation Organization (ICAO)]] therefore recommends breaks at least every two hours.<ref>{{Cite book |url=https://www.icao.int/ESAF/Documents/meetings/2016/Air%20Traffic%20Services%20System%20Capacity%202016/ATNS-Guidelines%20to%20reduce%20fatigue%20in%20operational%20environment.pdf |title=Guidelines to reduce fatigue in operational environment |publisher=International Civil Aviation Organization |pages=2 |language=en-US}}</ref><ref>{{cite journal |last1=Tesh |first1=Sylvia Noble |date=1984 |title=The politics of stress: the case of air traffic control |journal=International Journal of Health Services |volume=14 |issue=4 |pages=569–587 |doi=10.2190/JH2E-F62P-WMX8-7NQF |pmid=6500785 |s2cid=37944656}}</ref> In a study which compared stress in the general population and in this kind of systems markedly showed more stress level for controllers. This variation can be explained, at least in part, by the characteristics of the job.<ref>{{Cite journal |author=Arghami Sh |author2=Nasl Seraji J |author3=Mohammad K |author4=Zamani Gh |author5=Farhangi A |author6=van Vuuren W |date=2005 |title=Mental health in high-tech system |journal=Iranian Journal of Public Health |volume=34 |issue=1 |pages=31–37}}</ref> | ||
== Career path == | |||
In the United States trainee controllers begin work in their 20s and retire in their 50s almost universally. This is due to an FAA requirement that trainees begin their training at the academy no later than their 31st birthday, and face mandatory retirement at the last day of the month they turn 56.<ref name="USC-prelim-title5-section8335">{{Cite web |title=5 USC 8335: Mandatory separation |url=https://uscode.house.gov/view.xhtml?req=granuleid:USC-prelim-title5-section8335&num=0&edition=prelim |access-date=2025-02-09 |website=uscode.house.gov}}</ref> At the discretion of the [[United States Secretary of Transportation|Secretary of Transportation]], the retirement age can be extended to 61.<ref name="USC-prelim-title5-section8335" /> However, already experienced controllers, such as retired military air traffic controllers may qualify for appointment up to the age of 35.<ref>{{Cite web |title=What are the age requirements for individuals with at least 52 weeks of previous air traffic control (ATC) experience? |url=https://www.faa.gov/faq/what-are-age-requirements-individuals-least-52-weeks-previous-air-traffic-control-atc |url-status=live |archive-url=https://web.archive.org/web/20250202092233/https://www.faa.gov/faq/what-are-age-requirements-individuals-least-52-weeks-previous-air-traffic-control-atc |archive-date=2025-02-02 |access-date=2025-02-09 |work=[[Federal Aviation Administration]] |language=en}}</ref><ref>{{Cite web |title=Experienced Air Traffic Controllers |url=https://www.faa.gov/jobs/career_fields/aviation_careers/experienced_controllers |url-status=live |archive-url=https://web.archive.org/web/20250202081944/https://www.faa.gov/jobs/career_fields/aviation_careers/experienced_controllers |archive-date=2025-02-02 |access-date=2025-02-09 |work=Federal Aviation Administration |language=en}}</ref> These controllers also may work longer than age 56 in order to be able to receive their pension.<ref name="USC-prelim-title5-section8335" /><ref>{{Cite web |title=5 USC 8336: Immediate retirement |url=https://uscode.house.gov/view.xhtml?hl=false&edition=prelim&req=granuleid:USC-prelim-title5-section8336&num=0&saved=%7CZ3JhbnVsZWlkOlVTQy1wcmVsaW0tdGl0bGU1LXNlY3Rpb244MzM1%7C%7C%7C0%7Cfalse%7Cprelim |access-date=2025-04-12 |website=uscode.house.gov}}</ref> While other countries have different regulations, a similar concept is used in many countries, such as a maximal age to start training of 24 in Germany.<ref>{{Cite web |title=The job of an air traffic controller. {{!}} DFS Karriereportal |url=https://www.dfs.de/dfs_karriereportal_2016/en/Becoming%20an%20air%20traffic%20controller/ |access-date=2025-04-12 |website=www.dfs.de |language=en}}</ref> | |||
== Training and qualifications == | == Training and qualifications == | ||
=== Requirements === | === Requirements === | ||
Air traffic controllers are subject to some of the strictest physical and mental health requirements for any profession, reflecting the high responsibility. | Air traffic controllers are subject to some of the strictest physical and mental health requirements for any profession, reflecting the high responsibility. | ||
In Europe and parts of Asia, controllers must hold a [[Medical certifications for pilots|Class 3 medical certificate]]<ref>{{Cite web |title=Medical Requirements |url=https://www.caas.gov.sg/personnel-licences-training/air-traffic-controller/medical-requirements |access-date=2025-02-09 |website=CAAS - CWP |language=en}}</ref><ref>{{Cite web |title=Initial medical certification for air traffic controllers ATCOs {{!}} Civil Aviation Authority |url=https://www.caa.co.uk/commercial-industry/airspace/air-traffic-management-and-air-navigational-services/licences/medical-requirements/initial-medical-certification-for-air-traffic-controllers-atcos/ |access-date=2025-02-09 |website=caa.co.uk}}</ref><ref name="o4552">{{cite web |title=Licensing and medical certification of air traffic controllers |url=https://www.easa.europa.eu/en/downloads/897/en |access-date=9 Feb 2025}}</ref> which involves evaluations of vision, hearing, physical and mental health. While in the United States there is no required certificate, candidates undergo similar assessments by the FAA; for example, air traffic controllers are required to pass a [[Minnesota Multiphasic Personality Inventory]] (MMPI) before being allowed to work in the profession.<ref>{{Cite web |title=Medical |url=https://www.faa.gov/air_traffic/publications/atpubs/foa_html/chap2_section_8.html |url-status=live |archive-url=https://web.archive.org/web/20250203164038/https://www.faa.gov/air_traffic/publications/atpubs/foa_html/chap2_section_8.html |archive-date=2025-02-03 |access-date=2025-02-09 |website=faa.gov |language=en}}</ref><ref name="qualifications">{{Cite web |title=Air Traffic Controller Qualifications {{!}} Federal Aviation Administration |url=https://www.faa.gov/air-traffic-controller-qualifications |url-status=live |archive-url=https://web.archive.org/web/20250206161401/https://www.faa.gov/air-traffic-controller-qualifications |archive-date=2025-02-06 |access-date=2025-02-09 |website=faa.gov |language=en}}</ref><ref name="z222">{{cite web |title=Screening Air Traffic Control Specialists with the MMPI-2: Two New Scales to increase Predictive Utility |url=https://www.faa.gov/sites/faa.gov/files/data_research/research/med_humanfacs/oamtechreports/202103.pdf |access-date=9 Feb 2025}}</ref> | |||
=== | Certain health conditions such as [[diabetes]], [[epilepsy]], [[heart disease]], and many psychiatric disorders (e.g., [[clinical depression]], [[ADHD]], [[bipolar disorder]], [[personality disorders]], a history of [[drug abuse]], etc.)<ref name="d154">{{cite web |title=Skyguide MEDICAL INFORMATION |url=https://api.skyguide.ch/wp-content/uploads/2021/10/medical-information_EN.pdf |access-date=9 Feb 2025}}</ref> may lead to automatic disqualification or require explicit testing and waivers signed by the overseeing medical authority, demonstrating that the disorder does not impact the individuals' ability to do the job. Other conditions such as [[hypertension|hypertension (high blood pressure)]], while not automatically disqualifying, are taken seriously and must be monitored by certified doctors.<ref name="o136">{{cite web |title=Medical requirements for air traffic controllers |url=https://luftfartstilsynet.no/globalassets/dokumenter/flymedisin/medical-requirements-for-air-traffic-controllers.pdf#page=6 |access-date=9 Feb 2025}}</ref> Controllers must take precautions to remain healthy. Additionally controllers must report all medications they are taking, even [[over-the-counter drugs]] to the responsible medical authority.<ref>{{Cite web |last=Whall |first=Dan |date=2016-03-01 |title=Fit-for-Duty and Restricted Medications |url=https://www.natca.org/2016/03/01/fit-for-duty-and-restricted-medications/ |access-date=2025-02-09 |website=NATCA |language=en-US}}</ref> In the US numerous drugs approved by the [[Food and Drug Administration|U.S. Food and Drug Administration]] (FDA) are either banned or require an air traffic controller to apply for a Special Consideration Medical Certificate and undergo continuous monitoring of the underlying medical condition.<ref>{{Cite web |title=Does the FAA have a list of prescription and over-the-counter drugs that pilots can and cannot take while flying? {{!}} Federal Aviation Administration |url=https://www.faa.gov/faq/does-faa-have-list-prescription-and-over-counter-drugs-pilots-can-and-cannot-take-while-flying |url-status=live |archive-url=https://web.archive.org/web/20250202235524/https://www.faa.gov/faq/does-faa-have-list-prescription-and-over-counter-drugs-pilots-can-and-cannot-take-while-flying |archive-date=2025-02-02 |access-date=2025-02-09 |website=faa.gov |language=en}}</ref> Additionally excellent verbal communication skills are required, as controllers must be able to clearly communicate and listen to pilots' requests, even under high-stress conditions.<ref name="nationalcareers">{{Cite web |title=Air traffic controller {{!}} Explore Careers {{!}} National Careers Service |url=https://nationalcareers.service.gov.uk/job-profiles/air-traffic-controller |access-date=2025-04-13 |website=nationalcareers.service.gov.uk |language=en-gb}}</ref><ref name="tab-4">{{Cite web |title=Air Traffic Controllers |url=https://www.bls.gov/ooh/transportation-and-material-moving/air-traffic-controllers.htm#tab-4 |access-date=2025-04-13 |website=Bureau of Labor Statistics |language=en-us}}</ref><ref name="mastering">{{Cite web |date=2024-10-14 |title=Mastering the Skies: 10 essential skills for air traffic controllers |url=https://internationaltraininginstitute.edu.vn/mastering-the-skies-10-essential-skills-for-air-traffic-controllers/ |access-date=2025-02-04 |website=International Training Institute |language=en-US}}</ref> | ||
Additionally, ATCs are required to possess a certain skillset including [[situational awareness]], organizational skills, and the ability to manage multiple tasks simultaneously as well as always being thorough and paying attention to detail. Controllers must be able to make quick decisions, particularly in dynamic or high-stress situations. Controllers are expected to possess excellent verbal communication skills to exchange precise information with pilots and other controllers as clarity and accuracy are essential to maintaining safety.<ref name="tab-4" /><ref name="qualifications" /><ref name="nationalcareers" /> | |||
Although local languages are sometimes used in ATC communications, the default language of aviation worldwide is [[aviation English]]. Controllers who do not speak English as a first language are expected to show a certain minimum level of competency.<ref>{{Cite web |title=Multi-language ATC Operations {{!}} SKYbrary Aviation Safety |url=https://skybrary.aero/articles/multi-language-atc-operations |access-date=2025-02-09 |website=skybrary.aero}}</ref> | |||
===Education=== | |||
Civilian air traffic controllers' licensing is standardized by international agreement through the ICAO.<ref>{{Cite web |title=Vision and Mission to 2025 |url=https://www.icao.int/about-icao/Council/Pages/vision-and-mission.aspx |access-date=2025-02-09 |website=icao.int}}</ref> Many countries have air traffic control schools, which are often operated by the provider of air traffic services in that country or sometimes privately. These institutions provide training to individuals without any prior air traffic control experience.<ref>{{Cite web |last=marklloydbinar |title=Advanced ATC Homepage |url=https://advancedatc.com/ |access-date=2025-02-09 |website=Advanced ATC |language=en-US}}</ref> After the completion of academic training, the graduating student will be granted an Air Traffic Control license, which will include one or more Ratings.<ref name="easyaccess">{{Cite web |date=2024-07-08 |title=Easy Access Rules for Air Traffic Controllers' Licensing and Certification {{!}} EASA |url=https://www.easa.europa.eu/en/document-library/easy-access-rules/online-publications/easy-access-rules-air-traffic-controllers?page=5 |access-date=2025-02-09 |website=easa.europa.eu |language=en}}</ref> These are sub-qualifications denoting the air traffic control discipline or disciplines in which the person has been trained. The ICAO defines five such ratings:<ref name="easyaccess" /> | |||
* Area (procedural) | * Area (procedural) | ||
* Area Radar | * Area Radar | ||
| Line 100: | Line 105: | ||
In the United States, controllers may train in several similar specialties: | In the United States, controllers may train in several similar specialties: | ||
* Tower | * Tower | ||
* Ground-Controlled Approach (GCA) | * Ground-Controlled Approach (GCA) | ||
| Line 106: | Line 110: | ||
* En route Control (both radar and non-radar) | * En route Control (both radar and non-radar) | ||
This phase of training takes about 3–5 months.<ref name=" | This phase of training takes about 3–5 months.<ref name="jobtestprep">{{Cite web |title=How to Become an Air Traffic Controller: Step-by-Step Guide - JobTestPrep |url=https://www.jobtestprep.com/becoming-an-air-traffic-controller |access-date=2025-02-09 |website=jobtestprep.com |language=en-GB}}</ref> Whenever an air traffic controller is posted to a new unit or starts work on a new sector within a particular unit, they must undergo a period of training regarding the procedures peculiar to that particular unit and/or sector. The majority of this training is done in a live position controlling real aircraft and is referred to as On the Job Training (OJT).<ref name="b026">{{cite web | title=The On-the-job Training Instructor (OJTI) |website=SKYbrary Aviation Safety |date=29 Dec 2022 |url=https://skybrary.aero/articles/job-training-instructor-ojti |access-date=9 Feb 2025}}</ref> In this phase trainees are always with a fully qualified and trained mentor or an On the Job Training Instructor (OJTI), who will also be 'plugged into' the position to give guidance and is ready to immediately take over should it become necessary.<ref name="b026" /> The length of this phase of training usually varies between one and three years, depending on the complexity of the sector.<ref name="jobtestprep" /> Only once a person has passed all training stages they will be allowed to control a position alone. | ||
====ATC simulation software==== | |||
* [[Digital Combat Simulator]]<ref>https://www.youtube.com/watch?v=Zm30-EK1dYY</ref> | |||
* [[FlightGear#Multiplayer|FlightGear]] | |||
* [[International Virtual Aviation Organisation]] | |||
* [[Microsoft Flight Simulator X]] | |||
* [[Virtual Air Traffic Simulation Network]] | |||
* [https://atc-sim.com ATC-SIM]<ref>https://www.youtube.com/watch?v=L_Rw1Af3lwI</ref> | |||
* [https://feelthere.com/shop/air-traffic-control/tower3d/tower3d-pro/?srsltid=AfmBOoqMQKTHD7sYfLW4ED64CUGvOx6PGY7JndesywbJlhQdAsho7LL4 Tower!3D Pro]<ref>https://www.youtube.com/watch?v=qK7rf7voch0</ref> | |||
==== Air traffic control schools in the United States ==== | |||
* [[Vaughn College of Aeronautics and Technology]] – [[East Elmhurst]], [[New York (state)|New York]] | |||
* [[Embry–Riddle Aeronautical University]] – [[Daytona Beach, Florida|Daytona Beach]], [[Florida]] | |||
* [[John D. Odegard School of Aerospace Sciences]] – [[Grand Forks, North Dakota|Grand Forks]], [[North Dakota]] | |||
==See also== | ==See also== | ||
Latest revision as of 04:23, 22 December 2025
Template:Short description Script error: No such module "Distinguish". Script error: No such module "other uses". Template:Use dmy dates Template:Infobox Occupation
An air traffic controller (ATC) is a person responsible for the coordination of air traffic within controlled airspace. Typically they work in area control centers or control towers, where they monitor aircraft movements and maintain direct communication with the pilots.
The profession dates back to the early 20th century, evolving alongside advances in aviation and radar technology to meet the growing demands of air travel.
It is considered to be highly demanding and stressful, requiring continuous decision-making and adaptability, often under time pressure. Factors such as unfavorable work schedules, high responsibility and the reliability of equipment further influence workload and stress levels.[1] Despite these challenges, the role offers competitive salaries and strong job security, which are often cited as key benefits.[2]
History
Origins
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Air traffic controlling dates to the early 1920s in the UK; the first control tower was established on 25 February 1920 at Croydon Airport.[3] In 1922 Jimmy Jeffs was issued the first Air Traffic Control License.[4] In the US, Archie League is regarded as the first air traffic controller and was hired by the city of St. Louis in 1929 to prevent collisions.[5] Early controllers relied on simple visual signaling methods such as flags to communicate with pilots.[5][6]
Introduction of radar and radio communication
In 1930 Cleveland Airport opened the first tower using two-way radio communication and in 1946 Indianapolis International Airport (then Weir-Cook airport) became the first civilian airport to have radar installed.[5] This allowed controllers to monitor aircraft positions in real-time, even in poor visibility conditions. Together with radio communication with the pilots, this laid the foundation for Ground Control Approaches and later Instrument landing system (ILS).[7] These innovations fundamentally changed the profession of air traffic controllers from guidance and ground controlling to actively guiding planes that are already in the air and making sure they land safely.[7]
Developments until today
Since the introduction of radar in the 1950s, the field of air traffic control is still undergoing major innovations; Automatic Dependent Surveillance–Broadcast (ADS-B) technology is being expanded world wide providing even more accurate position information to the controller providing them with more advanced assistance systems.[8]
Future prospects
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With new technologies such as artificial intelligence emerging, efforts to automate certain tasks of ATCs began.[8]
The focus of the industry is on the development of assisting and predicting artificial intelligence tools as well as the automation of repetitive tasks rather than attempts to replace the controllers.[9][10][11] There is a consensus among developers and airport operators that, in the foreseeable future, air traffic controllers will tend to be more of a system manager overseeing decisions made by automated systems and intervening to resolve unexpected situations, which is currently one of the most difficult tasks for artificial intelligence, making full replacement unlikely.[12][9][13][14] One challenge with partially automated workflows is the potential for skill and knowledge disintegration due to reduced daily practice. One possible solution is the use of computer-based training or simulation technologies to maintain continuous learning and proficiency.[15]
An alternative approach to modernization is the implementation of fully digital remote and virtual towers. This method replaces the conventional physical control tower with remote facilities utilizing digital technologies and information dense, virtual environments to manage air traffic operations.[16][17][18] Significant progress has already been made in this area, with the first remotely controlled tower having opened in Sweden in 2014.[19]
Another concern is the acceptance or willingness by the controllers to use such technology. In a study with 500 air traffic controllers Bekier et al. found that as soon as the focus of decision-making shifts away from the air traffic controller, support for the technology dramatically decreases.[20]
Roles
Area controllers
Area controllers (also called "en route" or in the US "center controllers") oversee aircraft at higher altitudes, in the en-route phase of their flight surrounding busier airports and airspace. In contrast to tower controllers, their job is dominated by the discovery of conflicts.[21] Area controllers may also handle aircraft at lower altitudes as well as air traffic around small airports that do not have their own towers or approach controllers.[22] Area controllers are responsible for specific sectors of 3D blocks of airspace with defined dimensions. Each sector is managed by at least one area controller, known as an "R-side" (Radar) controller that handles radio communications. During busier times of traffic, there may also be a second area controller, known as a "D-side" (Data), assigned to the same area in order to assist the R-side Area controller.[23] This can be done with or without the use of radar: radar allows a sector to handle much more traffic; however, procedural control is used in many areas where traffic levels do not justify radar or the installation of radar is not feasible, such as over oceans.
Area controllers operate within area control centers, also known as centers or en-route centers.[24][25] where they are controlling high-level en-route aircraft. In the US, these facilities are specifically referred to as Air Route Traffic Control Centers (ARTCCs).[26] Area controllers can also work in terminal control centers, which control aircraft climbing from or descending to major groups of airports.
Aerodrome or tower
Aerodrome or Tower controllers control aircraft within the immediate vicinity of the airport and use visual observation from the airport tower. The tower's airspace is often a Script error: No such module "convert". radius around the airport, but can vary greatly in size and shape depending on traffic configuration and volume.[27]
The tower positions are typically split into many different positions such as Flight Data/Clearance Delivery, Ground Control, and Local Control (known as Tower by the pilots); at busier facilities, a limited radar approach control position may be needed.[27]
The roles of the positions are:[27]
- Flight Data/Clearance Delivery: Issues IFR flight plan clearances, obtains squawk codes for VFR aircraft, helps with coordination for GC/LC, and cuts the ATIS (weather).
- Ground: Issues taxi instructions and authorizes aircraft/vehicle movements on the airport except the active runway(s); controllers are not responsible for aircraft movement on ramps or other designated non-movement areas.
- Local (Tower): Issues takeoff and landing instructions/clearances and authorizes aircraft/vehicle movements on or across runways.
- Approach: Issues instructions to aircraft who are intending to land at the airport. This involves vectoring aircraft in a safe, orderly, and expeditious manner and, if needed, stacking the aircraft at different holding altitudes.
Civilian/military
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Civilian ATCs handle commercial and general aviation such as airliners and private jets while military controllers usually oversee airspace or airports of armed forces. Some civilian airports are part of military airports and therefore serviced by military controllers also known as joint-use.[28] In some countries all air traffic controlling is handled by the military and all controllers are soldiers.[29]
Public/private
Historically, most controllers were civil servants. While in many countries still have public ATC services, some have implemented mixed or fully privatized models. For example, Canada was the first country to fully privatize its air traffic control services. Globally, the trend toward privatization varies.[30]
Working conditions
Work patterns
Typically, controllers work between 90 and 120 minutes followed by a 30-minute break.[31] Except at smaller airports with little air traffic volume, air traffic control operates nonstop, requiring controllers to work rotating shifts that include nights, weekends, and public holidays. Shift schedules are usually set 28 days in advance.[32] In many countries, the structure of controllers' shift patterns is regulated to allow for adequate time off. The shift pattern often varies depending on country, facility and its location. In the US the Federal Aviation Administration (FAA) regulates the hours that an air traffic controller may work: controllers may not work more than 10 straight hours during a shift, which includes required breaks, and must have 9 hours of rest before their next shift.[33] Additionally they usually work a relatively unique rotating shift schedule, called the 2-2-1. Working on this schedule means rotating between two afternoon shifts, two morning shifts and a midnight shift over the course of a week.[34]
Stress
Many countries regulate work hours to ensure that controllers are able to remain focused and effective. Research suggests that after prolonged periods of continuous work for more than two hours, performance can deteriorate rapidly, even at low traffic levels.[35][36][37] The International Civil Aviation Organization (ICAO) therefore recommends breaks at least every two hours.[38][39] In a study which compared stress in the general population and in this kind of systems markedly showed more stress level for controllers. This variation can be explained, at least in part, by the characteristics of the job.[40]
Career path
In the United States trainee controllers begin work in their 20s and retire in their 50s almost universally. This is due to an FAA requirement that trainees begin their training at the academy no later than their 31st birthday, and face mandatory retirement at the last day of the month they turn 56.[41] At the discretion of the Secretary of Transportation, the retirement age can be extended to 61.[41] However, already experienced controllers, such as retired military air traffic controllers may qualify for appointment up to the age of 35.[42][43] These controllers also may work longer than age 56 in order to be able to receive their pension.[41][44] While other countries have different regulations, a similar concept is used in many countries, such as a maximal age to start training of 24 in Germany.[45]
Training and qualifications
Requirements
Air traffic controllers are subject to some of the strictest physical and mental health requirements for any profession, reflecting the high responsibility.
In Europe and parts of Asia, controllers must hold a Class 3 medical certificate[46][47][48] which involves evaluations of vision, hearing, physical and mental health. While in the United States there is no required certificate, candidates undergo similar assessments by the FAA; for example, air traffic controllers are required to pass a Minnesota Multiphasic Personality Inventory (MMPI) before being allowed to work in the profession.[49][50][51]
Certain health conditions such as diabetes, epilepsy, heart disease, and many psychiatric disorders (e.g., clinical depression, ADHD, bipolar disorder, personality disorders, a history of drug abuse, etc.)[52] may lead to automatic disqualification or require explicit testing and waivers signed by the overseeing medical authority, demonstrating that the disorder does not impact the individuals' ability to do the job. Other conditions such as hypertension (high blood pressure), while not automatically disqualifying, are taken seriously and must be monitored by certified doctors.[53] Controllers must take precautions to remain healthy. Additionally controllers must report all medications they are taking, even over-the-counter drugs to the responsible medical authority.[54] In the US numerous drugs approved by the U.S. Food and Drug Administration (FDA) are either banned or require an air traffic controller to apply for a Special Consideration Medical Certificate and undergo continuous monitoring of the underlying medical condition.[55] Additionally excellent verbal communication skills are required, as controllers must be able to clearly communicate and listen to pilots' requests, even under high-stress conditions.[56][57][58]
Additionally, ATCs are required to possess a certain skillset including situational awareness, organizational skills, and the ability to manage multiple tasks simultaneously as well as always being thorough and paying attention to detail. Controllers must be able to make quick decisions, particularly in dynamic or high-stress situations. Controllers are expected to possess excellent verbal communication skills to exchange precise information with pilots and other controllers as clarity and accuracy are essential to maintaining safety.[57][50][56]
Although local languages are sometimes used in ATC communications, the default language of aviation worldwide is aviation English. Controllers who do not speak English as a first language are expected to show a certain minimum level of competency.[59]
Education
Civilian air traffic controllers' licensing is standardized by international agreement through the ICAO.[60] Many countries have air traffic control schools, which are often operated by the provider of air traffic services in that country or sometimes privately. These institutions provide training to individuals without any prior air traffic control experience.[61] After the completion of academic training, the graduating student will be granted an Air Traffic Control license, which will include one or more Ratings.[62] These are sub-qualifications denoting the air traffic control discipline or disciplines in which the person has been trained. The ICAO defines five such ratings:[62]
- Area (procedural)
- Area Radar
- Approach (procedural)
- Approach Radar
- Aerodrome
In the United States, controllers may train in several similar specialties:
- Tower
- Ground-Controlled Approach (GCA)
- Terminal Radar Control
- En route Control (both radar and non-radar)
This phase of training takes about 3–5 months.[63] Whenever an air traffic controller is posted to a new unit or starts work on a new sector within a particular unit, they must undergo a period of training regarding the procedures peculiar to that particular unit and/or sector. The majority of this training is done in a live position controlling real aircraft and is referred to as On the Job Training (OJT).[64] In this phase trainees are always with a fully qualified and trained mentor or an On the Job Training Instructor (OJTI), who will also be 'plugged into' the position to give guidance and is ready to immediately take over should it become necessary.[64] The length of this phase of training usually varies between one and three years, depending on the complexity of the sector.[63] Only once a person has passed all training stages they will be allowed to control a position alone.
ATC simulation software
- Digital Combat Simulator[65]
- FlightGear
- International Virtual Aviation Organisation
- Microsoft Flight Simulator X
- Virtual Air Traffic Simulation Network
- ATC-SIM[66]
- Tower!3D Pro[67]
Air traffic control schools in the United States
- Vaughn College of Aeronautics and Technology – East Elmhurst, New York
- Embry–Riddle Aeronautical University – Daytona Beach, Florida
- John D. Odegard School of Aerospace Sciences – Grand Forks, North Dakota
See also
- Air traffic controllers' strike of 1981 (United States)
- Aviation safety
- Flight planning
- The Guild of Air Traffic Control Officers
- National Air Traffic Controllers Association
References
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