Difference between revisions of "Airport operations"

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[[File:F16-approach.png||none|600px|left|]]<br />
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=Learning objectives=
 
=Learning objectives=
 
#Enter the pattern
 
#Enter the pattern
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=Learning files=
 
=Learning files=
 
* https://www.dropbox.com/s/6yk0g0zlrgal2ss/UOAF_Landing_Procedures_v1.pdf?dl=0
 
* https://www.dropbox.com/s/6yk0g0zlrgal2ss/UOAF_Landing_Procedures_v1.pdf?dl=0
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* [http://www.vitaf.it/AMVI_Sito/Resource/Manuals/T-6_afman11-248.pdf USAF FTM 11-248]
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* [https://www.youtube.com/watch?v=jJe9cfGu1ac Flying a Full Procedure Approach in Falcon BMS]
  
 
=Recoveries=
 
=Recoveries=
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*'''Deconflict traffic'''. Landing aircraft will automatically and intuitively deconflict with one another with minimal loss of SA when altitude and DME restrictions are observed.
 
*'''Deconflict traffic'''. Landing aircraft will automatically and intuitively deconflict with one another with minimal loss of SA when altitude and DME restrictions are observed.
 
*'''Time'''. It is possible to land many aircraft safely within a small period of time in the military pattern format.  
 
*'''Time'''. It is possible to land many aircraft safely within a small period of time in the military pattern format.  
*'''Configuration'''. Flying the military pattern allows pilots to configure their aircraft for landing in an efficient and safe manner. At a minimum, two turns are conducted that are used to bleed off airspeed (Ops Limit for LDG Gear 300 KIAS, 11 degree AoA or green donut for approach).
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*'''Configuration'''. Flying the military pattern allows pilots to configure their aircraft for landing in an efficient and safe manner. At a minimum, two turns are conducted that are used to bleed off airspeed (Ops Limit for LDG Gear '''300 KIAS''', '''11''' degree AoA or '''green donut''' for approach).
  
 
===Terminology===
 
===Terminology===
*Pattern Altitude:The altitude in MSL by which an aircraft flies the downwind part of the military pattern.
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*'''Pattern Altitude''': The altitude in MSL by which an aircraft flies the downwind part of the military pattern.
*Altimeter: An aircraft instrument that measures vertical distance. For all military pattern operations, altimeters will be set to the local altimeter setting, otherwise known as QNH. If no altimeter setting can be retrieved, set the altitude to the known airfield elevation above MSL.
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*'''Altimeter''': An aircraft instrument that measures vertical distance. For all military pattern operations, altimeters will be set to the local altimeter setting, otherwise known as QNH. If no altimeter setting can be retrieved, set the altitude to the known airfield elevation above MSL.
*Entry:The military pattern is always entered at an entry point. There are two entry points:
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*'''Entry''': The military pattern is always entered at an entry point. There are two entry points:
**Initial:A theoretical point 3.0 nm(for UOAF purposes) in front of and directly aligned with the active runway threshold.  
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**'''Initial''': A theoretical point '''2.0 nm''' and '''2,000 AGL''' in front of and directly aligned with the active runway threshold.  
**Entry Runway XX: A briefed, and sometimes published point offset from the airport (usually 45 degrees) in which an aircraft is at pattern altitude,  pointing at the center of the runway, and is offset the downwind leg by 45 degrees (clarified later in the document).
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**'''Straight In''': Straight ins are always flown
*Break Turn: A continuous, constant altitude, 180 degree left or right turn executed by the flight leader at the halfway mark of the active runway. The rollout point is the downwind leg.  
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*'''Break Turn''': A continuous, '''3G''', '''70''' degree angle of bank, constant altitude, '''180''' degree left or right turn flown at '''300 knots''' and executed by the flight leader at the halfway mark of the active runway. The rollout point is the downwind leg.  
* Downwind:A leg of the military pattern, flown in the opposite direction and parallel of the active runway at constant altitude, no less than 0.5 nm away from the runway.
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* '''Downwind''': A leg of the military pattern, flown in the opposite direction and parallel of the active runway at constant altitude. Airspeed should be gradually reduced to '''200 knots by the perch point''' and '''gear should be dow'''n once '''abeam the halfway point of the runway'''.
 
[[File:ob_overhead.png|thumb|right|Overhead break]]
 
[[File:ob_overhead.png|thumb|right|Overhead break]]
*Perch:An imaginary point on the downwind leg so that if a line were drawn from the aircraft to the runway threshold, its angle would be roughly 45 degrees.
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*'''Perch''': An imaginary point on the downwind leg so that if a line were drawn from the aircraft to the runway threshold, its angle would be roughly 45 degrees.
*Base Turn:A continuous, descending 180 degree turn from the perch point to an imaginary line extending from the runway threshhold. The rollout point is when the aircraft is aligned with the runway.  
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*'''Base Turn''': A continuous, descending 180 degree turn with '''45 degrees of bank''' and '''on speed AoA''' from the perch point to an imaginary line extending from the runway threshhold. The rollout point is when the aircraft is aligned with the runway.  
*Final:A point just before landing in which the aircraft is aligned with the runway, in a landing configuration, and the pilot is commited to the landing.
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*'''Final''': A point just before landing in which the aircraft is aligned with the runway, in a landing configuration, and the pilot is committed to the landing.
*Closed Turn:A continuous, ascending 180 degree turn from the end of the runway to intercept downwind. A closed turn is only made if going around or performing touch and go’s.
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*'''Closed Turn''': A continuous, ascending 180 degree turn from the end of the runway to intercept downwind. A closed turn is only made if going around or performing touch and go’s.
  
 
===Restrictions===
 
===Restrictions===
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===UOAF Observed Parameters (SOPs)===
 
===UOAF Observed Parameters (SOPs)===
*Initial will be declared at 3.0 nm from the active runway threshold and will be overflown at an altitude of 3,000 AGL
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*Initial will be declared at '''2.0 nm''' from the active runway threshold and will be overflown at an altitude of '''2,000 AGL'''.
*Pattern Altitude will be 2,000 AGL
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*Prior to Initial, a flight must be established in echelon formation and on runway heading '''no later than 5.0 nm from the runway threshold'''.
*Airspeed at initial will be 350 KIAS or slower(Ops limits will be observed for all procedures).
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*Pattern Altitude will be '''2,000 AGL''' at all stations unless noted or briefed otherwise.
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*Airspeed at initial will be '''300 KIAS''' or slower (ops limits will be observed for all procedures)  
 
*Communications will be accurately and deliberately executed (document will explain in detail below).  
 
*Communications will be accurately and deliberately executed (document will explain in detail below).  
*Altitudes are provided in AGL so that the relative vertical profile of these procedures are consistent regardless of airbase or field elevation. It is the responsibility of flight leaders to convert and brief these altitudes in MSL. For example, an airfield with a field elevation of 2,000 MSL will have an initial altitude of 5,000 MSL(+3000)and a pattern altitude of 4,000 MSL(+2000).  
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*Altitudes for all airport operations will be referenced in MSL. Convert AGL to MSL by adding AGL values to airport elevation.
  
 
===UOAF Procedures (SOPs)===
 
===UOAF Procedures (SOPs)===
A flight will assume close trail or echelon formation and will fly at 3,000 AGL until initial for the active runway.  
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[[File:OHB chase view.gif ‎|thumb|right|Overhead break - animated]]
At initial, aircraft will descend to 2,000 AGL, starting a closed turn for downwind once halfway down the active runway.
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A flight will assume close trail or echelon formation and will fly at '''2,000 AGL''' until initial for the active runway at '''300 knots'''. Aircraft will fly through initial to the "break zone," an area defined as the halfway point of the active runway. Aircraft will pull approximately '''3G'''<nowiki/>'s at '''70''' degrees angle of bank until established on downwind. On downwind, aircraft will slow down to '''200 knots''' minimum and configure for landing so that they arrive at the perch on speed .
On downwind, aircraft will slow down and configure for landing.
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At the perch, aircraft will begin their base turn at approximately '''45''' degrees of bank, '''on AoA''' (flight path marker in bracket, usually around '''150 knots'''), and intercept the glidepath of the runway at approximately '''0.5 nm''' from the runway with the appropriate AoA.
At the perch, aircraft will begin their base turn and intercept the glidepath of the runway with the appropriate AoA.
 
 
Aircraft will touchdown and land using the '''entirety of the runway'''.
 
Aircraft will touchdown and land using the '''entirety of the runway'''.
 
[[File:Traffic_pattern_entries.png|thumb|right|Traffic pattern entries]]
 
[[File:Traffic_pattern_entries.png|thumb|right|Traffic pattern entries]]
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It is the flight leader’s responsibility to insure that landing procedures as they are stated here are followed with precision and purpose as well as to make proper radio calls to the flight and package comms.  
 
It is the flight leader’s responsibility to insure that landing procedures as they are stated here are followed with precision and purpose as well as to make proper radio calls to the flight and package comms.  
 
====Wingmen====
 
====Wingmen====
It is the winman’s responsibility to insure that the formation is being upheld with precision. Wingmen are expected to broadcast their actions to their flight leader.
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It is the wingman’s responsibility to "be there." Do not hit #1, keep #1 in sight, be in position and on the proper radio frequency, clear for the formation, back up #1.  
  
 
===UOAF Communications (SOPs)===
 
===UOAF Communications (SOPs)===
 
====Before Initial====
 
====Before Initial====
*Flight leader will brief his/her flight on runway in use and entry point, pattern direction (left or right), initial altitude, pattern altitude, airspeed until the break, airspeed on the downwind, and break interval.
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*Flight leader will brief the preferred landing method to the flight (via initial, singleton straight in, formation straight in). The flight leader and wingmen are expected to know the UOAF SOP's regarding the overhead break, so no specifics are required. (Note: Entering the pattern via initial will not be flown if in IMC [Instrument Meterlogical Conditions], if there is an emergency, or if an aircraft is carrying live bombs).
**Example: “Flight, landing runway THREE-ZEROvia initial at 3,000,right traffic, pattern altitude 2,000, we will maintain THREE-FIVE-ZERO knots, TWO-FIVE-ZERO knots on downwind, break after 2 seconds.”
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**Example: “Flight, landing runway THREE-ZERO via initial.”
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** Example: “Flight, landing runway TWO-ONE via straight in, formation landing.”
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** Example: “Flight, landing runway ONE-FOUR via straight in, single ship.”
 
*Wingmen will respond with their callsign.
 
*Wingmen will respond with their callsign.
 
**Example: “TWO, THREE, FOUR”
 
**Example: “TWO, THREE, FOUR”
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====At Initial====
 
====At Initial====
 
*Flight leader will announce on package comms that his/her flight is at initial and descending to pattern altitude
 
*Flight leader will announce on package comms that his/her flight is at initial and descending to pattern altitude
**Example: “Snake 11, initial,runway THREE-ZERO, descending”
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**Example: “Snake 11, initial"
*Wingmen will hold formation and respond with their callsign
 
**Example “TWO, THREE, FOUR”
 
  
 
====At the Break Point====
 
====At the Break Point====
 
*Flight leader will announce to his flight that he is executing his/her break turn
 
*Flight leader will announce to his flight that he is executing his/her break turn
**Example: “Lead is on the break”
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**Example: “Lead, in the break”
 
*Wingmen will fly runway heading until it is their turn to break. After which, they will announce their break turn.
 
*Wingmen will fly runway heading until it is their turn to break. After which, they will announce their break turn.
**Example:(2 seconds later after lead’s break)“TWO, on the break”
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**Example:(5 seconds later after lead’s break)“TWO, in the break”
**Example:(2 seconds later after #2’s break) “THREE, on the break”
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**Example:(5 seconds later after #2’s break) “THREE, in the break”
**Example:(2 seconds later after #3’s break) “FOUR, on the break”
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**Example:(5 seconds later after #3’s break) “FOUR, in the break”
  
 
====On the Downwind Leg====
 
====On the Downwind Leg====
*Flight leader will communicate his/her airspeed to the rest of the flight and will announce when configuring for landing.
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*Flight leader will communicate his/her airspeed while on downwind '''as a courtesy only'''. Aircraft will gradually slow from '''300 knots''' before the break turn to '''200 knots''' at the perch point on downwind.
**Example: “Lead is holding TWO-FIVE-ZERO knots, boards out, gear down.
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**Example: “Lead is TWO-FIVE-ZERO knots, slowing to TWO-ZERO-ZERO."
*Wingmen will ONLY drop their gear and extend boards when they are at the APPROXIMATE point where lead configured for landing*
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*Wingmen will '''configure when approximately abeam the halfway point of the runway''' on downwind.
**Example:When at the approximate position where lead extended boards and dropped gear:“TWO, boards out,gear down.
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**No communication is needed until reaching the perch point where a gear down call must be made (explained below).
**As a wingman, it is important to use common sense when deciding to extend boards and drop gear. Maintaining separation is paramount, but so is making sure you areequally spaced with lead and the wingmen behind you. Thus, the decision when to extend boards and drop gear is purely situational.
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**As a wingman, it is important to use common sense when deciding to extend boards and drop gear. Maintaining separation is paramount, but so is making sure you are equally spaced with lead and the wingmen behind you.
  
 
====On BaseTurn====
 
====On BaseTurn====
*Flight leader will communicate to the rest of the package that he/she is on the base turn. The flight leader speaks for the rest of the flight, so always assume that there are wingmen following.
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*Flight leader and all wingmen will communicate to the rest of the package that he/she is on the base turn.
**Example: “Snake 11, base,runway THREE-ZERO.”
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**Example: “Snake 11, base, runway THREE-ZERO  
*Wingmen will communicate to the flight that they are on base.
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**Example: “Snake 12, base, runway THREE-ZERO.”  
**Example: “TWO, base,runway THREE-ZERO.”  
 
  
 
====After Touchdown====
 
====After Touchdown====
*Flight leader will communicate with the rest of the flight that he has vacated the active runway. The rest of the package will be notified once all planes are down.
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*Flight leader will communicate with the rest of the package that he has vacated the active runway. The rest of the package will be notified once all planes are down.
**Example: “Lead is off runway THREE-ZERO at Bravo.”
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**Example: “Snake 11 is off runway THREE-ZERO at Bravo.”
**Example: “Snake flight has landed and vacated runway THREE-ZERO. Runway THREE-ZERO is clear for landing.”
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**Example: “Snake 12 is off runway THREE-ZERO at Bravo."
*Wingmen will tell their flight leader when they have vacated the runway.
 
**Example: “TWO is off runway THREE-ZERO at Bravo.
 
  
 
===Conclusion===
 
===Conclusion===
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[[File:trp.png|thumb|right|Tactical recovery procedure (TRP)]]
 
[[File:trp.png|thumb|right|Tactical recovery procedure (TRP)]]
 
How to execute a TRP
 
How to execute a TRP
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{{Nav UOAF}}
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[[Category:UOAF]]
 
[[Category:UOAF]]
 
[[Category:UOAF: BMS Codex]]
 
[[Category:UOAF: BMS Codex]]

Latest revision as of 03:10, 22 March 2017

F16-approach.png


Learning objectives

  1. Enter the pattern
  2. Fly a circuit
  3. Fly the overhead break
  4. Fly the tactical recover procedure
  5. QNH vs. QFE

Learning files

Recoveries

Overhead break

Overhead break

The military pattern, otherwise known as the overhead break, is the standard for all USAF fighter operations. It looks great on camera, but primarily, it's designed to deconflict and get planes on the ground as soon as possible.

Theory

The overhead break, otherwise known as the military pattern, is a landing technique used to accomplish the following objectives:

  • Deconflict traffic. Landing aircraft will automatically and intuitively deconflict with one another with minimal loss of SA when altitude and DME restrictions are observed.
  • Time. It is possible to land many aircraft safely within a small period of time in the military pattern format.
  • Configuration. Flying the military pattern allows pilots to configure their aircraft for landing in an efficient and safe manner. At a minimum, two turns are conducted that are used to bleed off airspeed (Ops Limit for LDG Gear 300 KIAS, 11 degree AoA or green donut for approach).

Terminology

  • Pattern Altitude: The altitude in MSL by which an aircraft flies the downwind part of the military pattern.
  • Altimeter: An aircraft instrument that measures vertical distance. For all military pattern operations, altimeters will be set to the local altimeter setting, otherwise known as QNH. If no altimeter setting can be retrieved, set the altitude to the known airfield elevation above MSL.
  • Entry: The military pattern is always entered at an entry point. There are two entry points:
    • Initial: A theoretical point 2.0 nm and 2,000 AGL in front of and directly aligned with the active runway threshold.
    • Straight In: Straight ins are always flown
  • Break Turn: A continuous, 3G, 70 degree angle of bank, constant altitude, 180 degree left or right turn flown at 300 knots and executed by the flight leader at the halfway mark of the active runway. The rollout point is the downwind leg.
  • Downwind: A leg of the military pattern, flown in the opposite direction and parallel of the active runway at constant altitude. Airspeed should be gradually reduced to 200 knots by the perch point and gear should be down once abeam the halfway point of the runway.
Overhead break
  • Perch: An imaginary point on the downwind leg so that if a line were drawn from the aircraft to the runway threshold, its angle would be roughly 45 degrees.
  • Base Turn: A continuous, descending 180 degree turn with 45 degrees of bank and on speed AoA from the perch point to an imaginary line extending from the runway threshhold. The rollout point is when the aircraft is aligned with the runway.
  • Final: A point just before landing in which the aircraft is aligned with the runway, in a landing configuration, and the pilot is committed to the landing.
  • Closed Turn: A continuous, ascending 180 degree turn from the end of the runway to intercept downwind. A closed turn is only made if going around or performing touch and go’s.

Restrictions

The military pattern is flown under several conditions:

  • VFR Weather Conditions (3 statute mile visibility, cloud clearances of 500 feet below, 1,000 feet above, and 2,000 feet horizontal distance).
  • IFR conditions are NOT present and no instrument approaches are in effect
  • No emergency procedures are in effect for aircraft in the flight or other landing aircraft.
  • In multiple ship flights, indivudal ships will break at a briefed time interval with respect to the flight leader.

UOAF Observed Parameters (SOPs)

  • Initial will be declared at 2.0 nm from the active runway threshold and will be overflown at an altitude of 2,000 AGL.
  • Prior to Initial, a flight must be established in echelon formation and on runway heading no later than 5.0 nm from the runway threshold.
  • Pattern Altitude will be 2,000 AGL at all stations unless noted or briefed otherwise.
  • Airspeed at initial will be 300 KIAS or slower (ops limits will be observed for all procedures)
  • Communications will be accurately and deliberately executed (document will explain in detail below).
  • Altitudes for all airport operations will be referenced in MSL. Convert AGL to MSL by adding AGL values to airport elevation.

UOAF Procedures (SOPs)

Overhead break - animated

A flight will assume close trail or echelon formation and will fly at 2,000 AGL until initial for the active runway at 300 knots. Aircraft will fly through initial to the "break zone," an area defined as the halfway point of the active runway. Aircraft will pull approximately 3G's at 70 degrees angle of bank until established on downwind. On downwind, aircraft will slow down to 200 knots minimum and configure for landing so that they arrive at the perch on speed . At the perch, aircraft will begin their base turn at approximately 45 degrees of bank, on AoA (flight path marker in bracket, usually around 150 knots), and intercept the glidepath of the runway at approximately 0.5 nm from the runway with the appropriate AoA. Aircraft will touchdown and land using the entirety of the runway.

Traffic pattern entries

Responsibilities

Flight Leaders

It is the flight leader’s responsibility to insure that landing procedures as they are stated here are followed with precision and purpose as well as to make proper radio calls to the flight and package comms.

Wingmen

It is the wingman’s responsibility to "be there." Do not hit #1, keep #1 in sight, be in position and on the proper radio frequency, clear for the formation, back up #1.

UOAF Communications (SOPs)

Before Initial

  • Flight leader will brief the preferred landing method to the flight (via initial, singleton straight in, formation straight in). The flight leader and wingmen are expected to know the UOAF SOP's regarding the overhead break, so no specifics are required. (Note: Entering the pattern via initial will not be flown if in IMC [Instrument Meterlogical Conditions], if there is an emergency, or if an aircraft is carrying live bombs).
    • Example: “Flight, landing runway THREE-ZERO via initial.”
    • Example: “Flight, landing runway TWO-ONE via straight in, formation landing.”
    • Example: “Flight, landing runway ONE-FOUR via straight in, single ship.”
  • Wingmen will respond with their callsign.
    • Example: “TWO, THREE, FOUR”

At Initial

  • Flight leader will announce on package comms that his/her flight is at initial and descending to pattern altitude
    • Example: “Snake 11, initial"

At the Break Point

  • Flight leader will announce to his flight that he is executing his/her break turn
    • Example: “Lead, in the break”
  • Wingmen will fly runway heading until it is their turn to break. After which, they will announce their break turn.
    • Example:(5 seconds later after lead’s break)“TWO, in the break”
    • Example:(5 seconds later after #2’s break) “THREE, in the break”
    • Example:(5 seconds later after #3’s break) “FOUR, in the break”

On the Downwind Leg

  • Flight leader will communicate his/her airspeed while on downwind as a courtesy only. Aircraft will gradually slow from 300 knots before the break turn to 200 knots at the perch point on downwind.
    • Example: “Lead is TWO-FIVE-ZERO knots, slowing to TWO-ZERO-ZERO."
  • Wingmen will configure when approximately abeam the halfway point of the runway on downwind.
    • No communication is needed until reaching the perch point where a gear down call must be made (explained below).
    • As a wingman, it is important to use common sense when deciding to extend boards and drop gear. Maintaining separation is paramount, but so is making sure you are equally spaced with lead and the wingmen behind you.

On BaseTurn

  • Flight leader and all wingmen will communicate to the rest of the package that he/she is on the base turn.
    • Example: “Snake 11, base, runway THREE-ZERO
    • Example: “Snake 12, base, runway THREE-ZERO.”

After Touchdown

  • Flight leader will communicate with the rest of the package that he has vacated the active runway. The rest of the package will be notified once all planes are down.
    • Example: “Snake 11 is off runway THREE-ZERO at Bravo.”
    • Example: “Snake 12 is off runway THREE-ZERO at Bravo."

Conclusion

The military pattern is designed with safety and efficiency in mind. When flown accurately, the overhead break in the military pattern should be a seamless exercise in formation and communication. As long as flights dictate their intentions and locations while maintaining proper procedures, collisions and safety hazards are minimal despite airspace that is densely populated with landing aircraft.

Tactical recovery procedure (TRP)

Tactical recovery procedure (TRP)

How to execute a TRP

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