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A flight progress strip is a small strip of paper used to track a flight in air traffic control (ATC). While it has been supplemented by more technologically advanced methods of flight tracking since its introduction, it is still used in modern ATC as a quick way to annotate a flight, to keep a legal record of the instructions that were issued, to allow other controllers to see instantly what is happening and to pass this information to other controllers who go on to control the flight.
The strip is mounted in a plastic boot called a 'strip holder' and placed with other strips in a 'strip board' which is then used as a representation of all flights in a particular sector of airspace or on an airport. The color of the strip holder itself often has a meaning. The strip board has vertical rails that constrain the strips in several stacks ('bays').
The position of the strip in the board is a significant part of the information of the strip board: approach and area controllers typically keep their strips in level/altitude order, whereas tower controllers use the bays to represent the ground, the runway and the air. Each bay might be further sub-divided using 'designator strips' and metal bars to allow even more information to be portrayed by the position of a flight progress strip. Other special strips can be used to indicate special airspace statuses, or to represent the presence of physical obstructions or vehicles on the ground. They may even be used to provide a quick reminder to the controller of other pertinent information, e.g. the time when night begins or ends.
In some countries, flight progress strips have been replaced by computer displays. This is not always a problem free transition, since physical strips have many characteristics that a computer system cannot replicate. In fact, the term "handoff," which is used today to denote the computerized transfer of control of an aircraft from one sector to another, comes from the older technique of physically handing off the flight progress strip to the next controller to denote the transfer of responsibility. This technique is still used today within some control towers, for example the ground controller may physically hand the strip to the local controller as the aircraft reaches the runway, or the local controller will drop the strip and strip holder down a chute to the departure radar controller in the room below, once the aircraft has been cleared for takeoff.
There are many styles of progress strip layouts, but minor differences aside, a strip contains at least:
Other information may be added as required.
In addition a strip may be "cocked out", or offset, from normal alignment to highlight potential issues. This can be used either as a personal reminder or as a form of communication between controllers.
For filed flight plans, strips are initially printed from a computer and often contain more information than this. Further information is then added by controllers and assistants in various coloured pens to show the role of person making the annotation. For 'free-calling' aircraft (generally smaller aircraft transiting airspace), strips must be fully hand-written by the controller or assistant from information passed by radio.
Electronic replacements for flight progress strips are based on the paper strip metaphor and try to mimic existing operational procedures as closely as possible while leveraging all benefits of a digital representation.
Strips can be moved around, similar to ordinary paper strips, using a pen on a touch-sensitive tablet. Hand-written remarks can be added, and data fields can be directly changed by the controller. Strips can also be "cocked out" or marked in different colors.
Digital flight strips form a collaborative system which supports teamwork between several users, allowing strips to be transferred between positions. In some systems, a workflow engine models the standard workflow of handling flight strips. This is most beneficial for control towers, where there is a high coordination and communication portion between the ATCOs involved. The workflow engine suggests the step that is most likely to occur next for each strip, showing it on an "action button". Clicking on the action button confirms that next action, and the strip progresses along the workflow, possibly being moved to a different bay, or transferred to the next controller working position or unit. Timestamps for each user action are recorded by the system, providing a very fine-grained and accurate information database for all sorts of statistics, analysis and reporting.
Companies that are marketing digital flight strip systems include AviBit, Frequentis and NavCanada.
Digital flight strip systems can incorporate a range of features to implement safety nets and safety related logic. These include:
An additional benefit of using digital flight strips is that the system can be integrated with Advanced Surface Movement Guidance and Control System (A-SMGCS) or similar systems.
Among other features, this allows common highlighting of flight strips and the corresponding radar image, automatic reaction to events (e.g. touchdown) in the digital flight strip system, or a more sophisticated safety net functionality.
FAAO 7110.65 Chapter 2: General Control, Section 3: Flight Progress Strips
UK CAP493 Manual of Air Traffic Services, Part 1 Appendix D
Nav Canada's EXCDS glass strip system