A Traveler Meets Air Traffic Control 1963 Federal Aviation Administration FAA
- Duration: 33:17
- Updated: 24 Dec 2014
- author:
more at http://scitech.quickfound.net/aviation_news_and_search.html
An FAA controller explains how air traffic control works to a traveling businessman.
Public domain film from the Prelinger Archives, slightly cropped to remove uneven edges, with the aspect ratio corrected, and mild video noise reduction applied.
The soundtrack was also processed with volume normalization, noise reduction, clipping reduction, and/or equalization (the resulting sound, though not perfect, is far less noisy than the original).
http://creativecommons.org/licenses/by-sa/3.0/
http://en.wikipedia.org/wiki/Air_traffic_control
Air traffic control (ATC) is a service provided by ground-based controllers who direct aircraft on the ground and through controlled airspace, and can provide advisory services to aircraft in non-controlled airspace. The primary purpose of ATC worldwide is to prevent collisions, organize and expedite the flow of traffic, and provide information and other support for pilots. In some countries, ATC plays a security or defensive role, or is operated by the military.
To prevent collisions, ATC enforces traffic separation rules, which ensure each aircraft maintains a minimum amount of empty space around it at all times. Many aircraft also have collision avoidance systems, which provide additional safety by warning pilots when other aircraft get too close.
In many countries, ATC provides services to all private, military, and commercial aircraft operating within its airspace. Depending on the type of flight and the class of airspace, ATC may issue instructions that pilots are required to obey, or advisories (known as flight information in some countries) that pilots may, at their discretion, disregard. Generally the pilot in command is the final authority for the safe operation of the aircraft and may, in an emergency, deviate from ATC instructions to the extent required to maintain safe operation of their aircraft...
History
In 1921, Croydon Airport, London was the first airport in the world to introduce air traffic control.
In America, Air Traffic Control developed three divisions. The first - Air Mail Radio Stations (AMRS) was created in 1922 after World War 1 when the US Post Office began using techniques developed by the Army to direct and track the movements of reconnaissance aircraft. Over time the AMRS morphed into Flight Service Stations. Today's Flight Service Stations do not issue control instructions, but provide pilots with many other flight related informational services. They do relay control instructions from ATC in areas where Flight Service is the only facility with radio or phone coverage. The first Airport Traffic Control Tower, regulating arrivals, departures and surface movement of aircraft at a specific airport, opened in Cleveland in 1930. Approach/Departure Control facilities were created after the invention of RADAR in the 1950s to monitor and control the busy airspace around larger airports. The first Air Route Traffic Control Center, which directs the movement of aircraft between departure and destination was opened in Newark, NJ in 1935, followed in 1936 by Chicago and Cleveland...
Airport control
The primary method of controlling the immediate airport environment is visual observation from the airport control tower (TWR). The tower is a tall, windowed structure located on the airport grounds. Air traffic controllers are responsible for the separation and efficient movement of aircraft and vehicles operating on the taxiways and runways of the airport itself, and aircraft in the air near the airport, generally 5 to 10 nautical miles (9 to 18 km) depending on the airport procedures.
Surveillance displays are also available to controllers at larger airports to assist with controlling air traffic. Controllers may use a radar system called secondary surveillance radar for airborne traffic approaching and departing. These displays include a map of the area, the position of various aircraft, and data tags that include aircraft identification, speed, altitude, and other information described in local procedures. In adverse weather conditions the tower controllers may also use surface movement radar (SMR), surface movement guidance and control systems (SMGCS) or advanced SMGCS to control traffic on the manoeuvring area (taxiways and runway).
The areas of responsibility for TWR controllers fall into three general operational disciplines; Local Control or Air Control, Ground Control, and Flight Data/Clearance Delivery—other categories, such as Apron Control or Ground Movement Planner, may exist at extremely busy airports...
http://wn.com/A_Traveler_Meets_Air_Traffic_Control_1963_Federal_Aviation_Administration_FAA
more at http://scitech.quickfound.net/aviation_news_and_search.html
An FAA controller explains how air traffic control works to a traveling businessman.
Public domain film from the Prelinger Archives, slightly cropped to remove uneven edges, with the aspect ratio corrected, and mild video noise reduction applied.
The soundtrack was also processed with volume normalization, noise reduction, clipping reduction, and/or equalization (the resulting sound, though not perfect, is far less noisy than the original).
http://creativecommons.org/licenses/by-sa/3.0/
http://en.wikipedia.org/wiki/Air_traffic_control
Air traffic control (ATC) is a service provided by ground-based controllers who direct aircraft on the ground and through controlled airspace, and can provide advisory services to aircraft in non-controlled airspace. The primary purpose of ATC worldwide is to prevent collisions, organize and expedite the flow of traffic, and provide information and other support for pilots. In some countries, ATC plays a security or defensive role, or is operated by the military.
To prevent collisions, ATC enforces traffic separation rules, which ensure each aircraft maintains a minimum amount of empty space around it at all times. Many aircraft also have collision avoidance systems, which provide additional safety by warning pilots when other aircraft get too close.
In many countries, ATC provides services to all private, military, and commercial aircraft operating within its airspace. Depending on the type of flight and the class of airspace, ATC may issue instructions that pilots are required to obey, or advisories (known as flight information in some countries) that pilots may, at their discretion, disregard. Generally the pilot in command is the final authority for the safe operation of the aircraft and may, in an emergency, deviate from ATC instructions to the extent required to maintain safe operation of their aircraft...
History
In 1921, Croydon Airport, London was the first airport in the world to introduce air traffic control.
In America, Air Traffic Control developed three divisions. The first - Air Mail Radio Stations (AMRS) was created in 1922 after World War 1 when the US Post Office began using techniques developed by the Army to direct and track the movements of reconnaissance aircraft. Over time the AMRS morphed into Flight Service Stations. Today's Flight Service Stations do not issue control instructions, but provide pilots with many other flight related informational services. They do relay control instructions from ATC in areas where Flight Service is the only facility with radio or phone coverage. The first Airport Traffic Control Tower, regulating arrivals, departures and surface movement of aircraft at a specific airport, opened in Cleveland in 1930. Approach/Departure Control facilities were created after the invention of RADAR in the 1950s to monitor and control the busy airspace around larger airports. The first Air Route Traffic Control Center, which directs the movement of aircraft between departure and destination was opened in Newark, NJ in 1935, followed in 1936 by Chicago and Cleveland...
Airport control
The primary method of controlling the immediate airport environment is visual observation from the airport control tower (TWR). The tower is a tall, windowed structure located on the airport grounds. Air traffic controllers are responsible for the separation and efficient movement of aircraft and vehicles operating on the taxiways and runways of the airport itself, and aircraft in the air near the airport, generally 5 to 10 nautical miles (9 to 18 km) depending on the airport procedures.
Surveillance displays are also available to controllers at larger airports to assist with controlling air traffic. Controllers may use a radar system called secondary surveillance radar for airborne traffic approaching and departing. These displays include a map of the area, the position of various aircraft, and data tags that include aircraft identification, speed, altitude, and other information described in local procedures. In adverse weather conditions the tower controllers may also use surface movement radar (SMR), surface movement guidance and control systems (SMGCS) or advanced SMGCS to control traffic on the manoeuvring area (taxiways and runway).
The areas of responsibility for TWR controllers fall into three general operational disciplines; Local Control or Air Control, Ground Control, and Flight Data/Clearance Delivery—other categories, such as Apron Control or Ground Movement Planner, may exist at extremely busy airports...
- published: 24 Dec 2014
- views: 48