Much money has been spent on creating software to streamline this process. Yet at some air traffic control centers, air traffic controllers still record data for each flight on strips of paper and personally coordinate their paths. In newer sites, the flight strips have been replaced by computer screens. As new equipment is brought in, more and more sites are getting away from paper flight strips. A prerequisite to safe air traffic separation is the assignment and use of distinctive airline call signs that usually include up to four digits (the flight number) prefaced by a company-specific airline call sign. In this arrangement, an identical call sign might well be used for the same scheduled journey each day it is operated, even if the departure time varies a little across different days of the week. The call sign of the return flight often differs only by one digit, the final number, from the outbound flight. In the airline industry a journey from A to B is called a sector.
Many interesting technologies are used in air traffic control systems. Primary and Secondary Radar are used to build situational awareness of a cube of sky, where all types of aircraft send echoes back to the radar pulses depending on their size, and Transponder equipped aircraft return a signal that give an ID (mode A), an altitude (mode C) and/or an Unique Callsign (mode S). Some weather will register on the radar screen too.
These inputs, added perhaps to data from other radars are correlated to build the air situation. Some basic processing happens on the radar tracks like calculating ground speed and magnetic headings.
Other correlation with electronic flight plans are also available to controllers on modern Operational Display System[?].
At last, some tools are available in different domains to help the controller further, like
Other fatal collisions between airliners have occurred over India and Zagreb in Yugoslavia. When a risk of collision is identified by aircrew or ground controllers an "air miss"or "air prox" report can be filed with the air traffic control authority concerned.
The FAA has spent over $3 billion on software, but a fully-automated system is still over the horizon. The UK has recently brought a new control centre into service at Swanwick in Hampshire relieving a busy suburban centre at West Drayton in Middlesex north of London Heathrow Airport. Software from Lockheed-Martin predominates at Swanwick.
See also: Aviation System, Free Flight (Air traffic control), Tenerife disaster
wikipedia.org dumped 2003-03-17 with terodump