PilotController Glossary

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PilotController Glossary

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Pilot/Controller Glossary 7/31/08 PCG-1 PILOT/CONTROLLER ( ]/ C' K& y! Y+ I& [! f9 AGLOSSARY PURPOSE % u& m; R+ C: T3 g% Ja. This Glossary was compiled to promote a common understanding of the terms used in the Air Traffic ! V6 E6 N, a2 l: M6 k1 z8 @# Q" [3 mControl system. It includes those terms which are intended for pilot/controller communications. Those terms + n$ ?, J# C& t6 r2 Gmost frequently used in pilot/controller communications are printed in bold italics. The definitions are primarily defined in an operational sense applicable to both users and operators of the National Airspace System. Use of the Glossary will preclude any misunderstandings concerning the system's design, function, and purpose. b. Because of the international nature of flying, terms used in the Lexicon, published by the International + W: ]) M% w2 B8 }% [, OCivil Aviation Organization (ICAO), are included when they differ from FAA definitions. These terms are 5 M" u# F' G& C* u+ Ufollowed by “[ICAO].” For the reader's convenience, there are also cross references to related terms in other parts 1 u; B$ d) C1 f. J/ t0 Dof the Glossary and to other documents, such as the Code of Federal Regulations (CFR) and the Aeronautical Information Manual (AIM). , @% W4 |) Q$ i: u7 \c. This Glossary will be revised, as necessary, to maintain a common understanding of the system. EXPLANATION OF CHANGES a. Terms Added: ; W) v- ~2 v, V2 K7 T9 B- SAUTOMATIC FLIGHT INFORMATION SERVICE (AFIS) - ALASKA FSS ONLY # q1 b+ F3 d6 Y9 rb. Editorial/format changes were made where necessary. Revision bars were not used due to the insignificant 9 g8 p$ i. I2 n1 ]7 O; Nnature of the changes. 6 b1 ^1 { D0 d" \Pilot/Controller Glossary 2/14/08 & T: K) w) b" X) U# ^$ L; LPCG A-1 A AAI(See ARRIVAL AIRCRAFT INTERVAL.) + [/ ]) B3 Q% ~6 @. zAAR(See AIRPORT ARRIVAL RATE.) ABBREVIATED IFR FLIGHT PLANS- An authorization by ATC requiring pilots to submit only that information needed for the purpose of ATC. It ' Y5 V. a4 i5 z& H6 W* J w' X8 fincludes only a small portion of the usual IFR flight ( W9 v* [. P, ~2 J* p. p0 Dplan information. In certain instances, this may be ) ^ H+ D+ D' A0 i3 x; @) Vonly aircraft identification, location, and pilot request. Other information may be requested if ; c& g+ l) z' ~7 oneeded by ATC for separation/control purposes. It is % C; T5 c& G! [5 W" P- Tfrequently used by aircraft which are airborne and desire an instrument approach or by aircraft which are + q1 g; M* Q: U2 Aon the ground and desire a climb to VFR‐on‐top. ) M, n1 u- ?, q: x! j$ g/ c(See VFR‐ON‐TOP.) (Refer to AIM.) ( \( n+ U; Q5 `3 qABEAM- An aircraft is “abeam” a fix, point, or object when that fix, point, or object is approximately 90 degrees to the right or left of the aircraft track. 8 H& K9 K+ ^% O! \( LAbeam indicates a general position rather than a precise point. 7 d5 O% Q0 m+ A0 p: DABORT- To term inate a preplanned aircraft maneuver; e.g., an aborted takeoff. ACC [ICAO]- (See ICAO term AREA CONTROL CENTER.) 8 l! g) _7 n$ d0 d5 }# MACCELERATE‐STOP DISTANCE AVAILABLE- , t$ {7 e9 z7 j$ M$ ^& wThe runway plus stopway length declared available and suitable for the acceleration and deceleration of # b# s+ Q: n& w. g2 can airplane aborting a takeoff. - F3 |* D8 t0 {$ F; ~ACCELERATE‐STOP DISTANCE AVAILABLE [ICAO]- The length of the take‐off run available plus , H0 W B9 ]; Bthe length of the stopway if provided. ACDO(See AIR CARRIER DISTRICT OFFICE.) ACKNOWLEDGE- Let me know that you have received my message. b J) J, k* k+ p6 d(See ICAO term ACKNOWLEDGE.) ; _2 H4 C* c' W% `- s0 b$ EACKNOWLEDGE [ICAO]- Let me know that you 4 C% }) _; [1 K" G$ }. D5 K% X. phave received and understood this message. * M9 |7 F5 \, n) v' L3 UACL(See AIRCRAFT LIST.) 5 R' }$ ^ ?. A6 zACLS(See AUTOMATIC CARRIER LANDING SYSTEM.) ACLT(See ACTUAL CALCULATED LANDING TIME.) ACROBATIC FLIGHT- An intentional maneuver involving an abrupt change in an aircraft's attitude, an abnormal attitude, or abnormal acceleration not necessary for normal flight. + w ?+ A5 _4 Y8 e(See ICAO term ACROBATIC FLIGHT.) (Refer to 14 CFR Part 91.) $ S% Z0 } D( Q8 }ACROBATIC FLIGHT [ICAO]- Maneuvers inten‐ 6 t/ O- F+ `3 Z" E$ m2 ?tionally performed by an aircraft involving an abrupt ! M9 x6 [9 w0 w" `: N. C L' tchange in its attitude, an abnormal attitude, or an 2 V) j, H( D# [5 B6 `abnormal variation in speed. ACTIVE RUNWAY(See RUNWAY IN USE/ACTIVE RUNWAY/DUTY RUNWAY.) 2 @% I: c' t$ [1 hACTUAL CALCULATED LANDING TIME- 1 v+ R# f; ]6 i) p# |- G9 GACLT is a flight's frozen calculated landing time. An 0 [ c9 T8 `0 E: m- o' m2 v& \) Gactual time determined at freeze calculated landing time (FCLT) or meter list display interval (MLDI) for 4 Q& H" w; g- D$ A0 Tthe adapted vertex for each arrival aircraft based upon runway configuration, airport acceptance rate, airport arrival delay period, and other metered arrival aircraft. This time is either the vertex time of arrival 1 ?6 `$ N8 ^! ?, ?(VTA) of the aircraft or the tentative calculated 3 Y# U& i! e4 {9 slanding time (TCLT)/ACLT of the previous aircraft * X! u6 R2 s' a% V% q& g% ]7 kplus the arrival aircraft interval (AAI), whichever is later. This time will not be updated in response to the ]: J7 d0 j' [/ z# baircraft's progress. ACTUAL NAVIGATION PERFORMANCE (ANP)- (See REQUIRED NAVIGATION & O& `4 l' k# t. V/ M) {/ K# uPERFORMANCE.) ADDITIONAL SERVICES- Advisory information provided by ATC which includes but is not limited to i/ Z# v- i- B' C1 {- ]the following: / L( `# W- a& @4 q/ J$ d ca. Traffic advisories. b. Vectors, when requested by the pilot, to assist . s( F* n/ H$ _; ~. u& Xaircraft receiving traffic advisories to avoid observed traffic. Pilot/Controller Glossary 2/14/08 PCG A-2 c. Altitude deviation information of 300 feet or ! C/ k6 @2 |9 N# @( W- X4 qmore from an assigned altitude as observed on a * o1 t0 V! Z4 M; i: Qverified (reading correctly) automatic altitude 1 q6 m1 i9 q+ T, i2 x, c. Greadout (Mode C). % I( v# Y' p7 h# J/ W( ~d. Advisories that traffic is no longer a factor. e. Weather and chaff information. # g$ X/ V, w, if. Weather assistance. g. Bird activity information. h. Holding pattern surveillance. Additional ser‐ vices are provided to the extent possible contingent ! R5 S: D6 r0 w; E2 ~7 Q% t' vonly upon the controller's capability to fit them into the performance of higher priority duties and on the basis of limitations of the radar, volume of traffic, frequency congestion, and controller workload. The controller has complete discretion for determining if 0 C# ]0 j& y) g3 C Ihe/she is able to provide or continue to provide a service in a particular case. The controller's reason ' F, V- x: b- H8 bnot to provide or continue to provide a service in a $ _5 G$ K {6 r# Z4 ^particular case is not subject to question by the pilot ! R& h' V( Y7 G/ k% Fand need not be made known to him/her. 7 ?' a. \8 B% G(See TRAFFIC ADVISORIES.) % L3 Y6 R2 I+ b3 d4 }; B(Refer to AIM.) - w( s' {4 V1 U3 N; d3 V* qADF(See AUTOMATIC DIRECTION FINDER.) ADIZ(See AIR DEFENSE IDENTIFICATION ZONE.) ADLY(See ARRIVAL DELAY.) * H. e& m' t& D2 QADMINISTRATOR- The Federal Aviation Admin‐ istrator or any person to whom he/she has delegated ' h1 @/ L( D0 m) @his/her authority in the matter concerned. ADR(See AIRPORT DEPARTURE RATE.) 3 P% A% b. F$ s, P& @ADS [ICAO]- . d- {1 D7 i( C7 L; j( _9 Q(See ICAO term AUTOMATIC DEPENDENT 7 a- o- r; ], ~- s: p. |* cSURVEILLANCE.) " W$ M' N* B7 l. _8 x( t/ l3 wADS-B(See AUTOMATIC DEPENDENT / R' D: l5 j! T4 n+ f1 pSURVEILLANCE-BROADCAST.) * d1 x) d2 m$ A0 ~ S* D, MADS-C(See AUTOMATIC DEPENDENT SURVEILLANCE-CONTRACT.) ADVISE INTENTIONS- Tell me what you plan to 7 _! t9 C3 y) j, a- ?5 kdo. ' x* T$ x" ^# wADVISORY- Advice and information provided to 6 r3 N5 l3 D9 n aassist pilots in the safe conduct of flight and aircraft : G% e5 p) X- hmovement. ' G4 y* d; y+ o( ~* I' d) c(See ADVISORY SERVICE.) / F1 w; X- [0 f* Q) FADVISORY FREQUENCY- The appropriate fre‐ quency to be used for Airport Advisory Service. & t# |$ T, J. e(See LOCAL AIRPORT ADVISORY.) C1 w+ Z. t% h2 {(See UNICOM.) (Refer to ADVISORY CIRCULAR NO. 90‐42.) (Refer to AIM.) Y# K3 H$ w r) |) ^: F3 c1 YADVISORY SERVICE- Advice and information provided by a facility to assist pilots in the safe , \0 r* {- A- t/ |: d! Rconduct of flight and aircraft movement. * i! ]4 |, ~. T+ V, N(See ADDITIONAL SERVICES.) (See EN ROUTE FLIGHT ADVISORY SERVICE.) ) x# @7 `, X( w- C6 }% A( K(See LOCAL AIRPORT ADVISORY.) 1 U& ~7 M4 ^; g0 j- M/ g5 E8 `(See RADAR ADVISORY.) % u. H4 G2 o) [% x: d0 b- |2 l(See SAFETY ALERT.) (See TRAFFIC ADVISORIES.) % Y$ y% \" }$ L6 ?9 |$ p# x2 g) @(Refer to AIM.) 3 ]) d: ]' K! VAERIAL REFUELING- A procedure used by the military to transfer fuel from one aircraft to another 8 h* z, `7 e$ fduring flight. : ^* [- N5 B! b% M" h6 _/ R(Refer to VFR/IFR Wall Planning Charts.) AERODROME- A defined area on land or water / t% O7 m: r# z* \" t6 q I/ }(including any buildings, installations and equip‐ ) C' I1 h4 v+ d& f% `. R- [ment) intended to be used either wholly or in part for # r9 }1 S1 Z4 x6 Xthe arrival, departure, and movement of aircraft. ) m3 G: S9 c+ f$ s! }7 oAERODROME BEACON [ICAO]- Aeronautical 5 g i2 O" q# | |6 ~beacon used to indicate the location of an aerodrome from the air. 0 t( S" S0 M! g9 P/ c& ]AERODROME CONTROL SERVICE [ICAO]- Air traffic control service for aerodrome traffic. AERODROME CONTROL TOWER [ICAO]- A ( `' X5 \7 e! x6 K$ P& q0 k1 h; Runit established to provide air traffic control service to aerodrome traffic. AERODROME ELEVATION [ICAO]- The eleva‐ : k+ R* z# B8 `9 I2 Ition of the highest point of the landing area. AERODROME TRAFFIC CIRCUIT [ICAO]- The ) J/ t- k8 s; Pspecified path to be flown by aircraft operating in the vicinity of an aerodrome. AERONAUTICAL BEACON- A visual NAVAID " I, R: ]% ^1 P0 Z! udisplaying flashes of white and/or colored light to ! L: p- a6 O" X" J! b3 P, f* g- _- {indicate the location of an airport, a heliport, a . Y1 c; x7 B- D. Q8 h9 TPilot/Controller Glossary 2/14/08 ' G2 ^' \- h& r' VPCG A-3 & A3 w/ ]) e# a! R; ilandmark, a certain point of a Federal airway in # B8 Z$ j# B2 o; c; }2 omountainous terrain, or an obstruction. 7 J/ v1 Y. Q4 c x! h(See AIRPORT ROTATING BEACON.) (Refer to AIM.) 4 v5 [6 n2 ?, T. |5 C+ I. S' w+ uAERONAUTICAL CHART- A map used in air 6 s2 j) Y/ s1 m( w4 P- bnavigation containing all or part of the following: & P' \+ }& e8 _: o. I3 H( w' w6 }topographic features, hazards and obstructions, navigation aids, navigation routes, designated . p# u6 B1 J$ Sairspace, and airports. Commonly used aeronautical charts are: ) _& d. Y! E2 r/ i# Ga. Sectional Aeronautical Charts (1:500,000)- 6 U. M2 C/ U) N% ~! y( j9 ZDesigned for visual navigation of slow or medium speed aircraft. Topographic information on these charts features the portrayal of relief and a judicious 5 T& _* k$ L/ z% k. v: c3 p! gselection of visual check points for VFR flight. Aeronautical information includes visual and radio 8 N/ c4 p$ @) k2 r) N, Naids to navigation, airports, controlled airspace, restricted areas, obstructions, and related data. b. VFR Terminal Area Charts (1:250,000)- Depict Class B airspace which provides for the control or segregation of all the aircraft within Class B airspace. The chart depicts topographic informa‐ 5 N+ T" ]- v& P$ Btion and aeronautical information which includes . C `- R$ G' f1 gvisual and radio aids to navigation, airports, ; N% S1 [- r+ z0 hcontrolled airspace, restricted areas, obstructions, and related data. c. World Aeronautical Charts (WAC) (1:1,000,000)- Provide a standard series of aeronau‐ ' e9 }, l, z2 s$ l4 e2 p( jtical charts covering land areas of the world at a size , w! C; t; ?7 q: O/ r6 f( Qand scale convenient for navigation by moderate 0 C: r E9 V R) W. m Z; Ispeed aircraft. Topographic information includes cities and towns, principal roads, railroads, distinc‐ 5 z. e0 _0 M- m4 M) P0 n! otive landmarks, drainage, and relief. Aeronautical 7 r! d5 K: I1 Minform ation includes visual and radio aids to navigation, airports, airways, restricted areas, obstructions, and other pertinent data. : h/ B' t9 {( l& Id. En Route Low Altitude Charts- Provide aeronautical information for en route instrument navigation (IF R) in the low altitude stratum. Information includes the portrayal of airways, limits of controlled airspace, position identification and 5 c' }( V) ?* M ~- [; r, nfrequencies of radio aids, selected airports, minimum $ L/ i: u$ D- E" ?8 d1 Yen route and minimum obstruction clearance * B, r' H( @" h' {( V0 ~altitudes, airway distances, reporting points, re‐ stricted areas, and related data. Area charts, which are . G3 L) R1 E" X8 Z; F5 F. ya part of this series, furnish terminal data at a larger * V- g2 S- Y( X- W. ]( g0 Mscale in congested areas. : f6 V$ C. e8 M2 {& [ Je. En Route High Altitude Charts- Provide : R7 _1 m) n- Q/ ~0 j4 {5 n4 x' Kaeronautical information for en route instrument 4 P2 b! v7 Q3 t- w$ M/ a. l9 }navigation (IFR) in the high altitude stratum. Information includes the portrayal of jet routes, $ n- d8 r) N) W, C* ^( H$ ~identification and frequencies of radio aids, selected 2 i5 q4 H: w4 y" Z9 `( W2 L8 dairports, distances, time zones, special use airspace, , G7 A- x8 }! o; G0 t- xand related information. f. Instrument Approach Procedures (IAP) Charts- Portray the aeronautical data which is required to 0 E J/ ] ^# l3 g- e4 Wexecute an instrument approach to an airport. These ]0 `8 M% g/ E- ^* `4 ?* w; @charts depict the procedures, including all related data, and the airport diagram. Each procedure is designated for use with a specific type of electronic ( S, u$ X- ^1 X, R) I/ Q" `( ynavigation system including NDB, TACAN, VOR, * U* F% p# R% i, xILS/MLS, and RNAV. These charts are identified by the type of navigational aid(s) which provide final . } u7 n! L/ o4 j$ k5 tapproach guidance. g. Instrument Departure Procedure (DP) Charts- 4 n+ \0 \% O4 m7 v) `2 EDesigned to expedite clearance delivery and to " t9 V) B; d: P+ L! g1 ~5 afacilitate transition between takeoff and en route operations. Each DP is presented as a separate chart + g O6 n" |0 q" Q( eand may serve a single airport or more than one : c- l3 N) G& R. u2 A+ b3 gairport in a given geographical location. h. Standard Terminal Arrival (STAR) Charts- Designed to expedite air traffic control arrival * B) L+ ]' |) Z$ m+ T1 lprocedures and to facilitate transition between en route and instrument approach operations. Each . E( q! m4 e' V7 H! sSTAR procedure is presented as a separate chart and may serve a single airport or more than one airport in a given geographical location. . f1 h# o+ U0 r( t0 g, @i. Airport Taxi Charts- Designed to expedite the . ~3 F, j" T0 p8 A3 ^efficient and safe flow of ground traffic at an airport. 1 k; h6 \+ O9 E3 b6 y4 _; aThese charts are identified by the official airport name; e.g., Ronald Reagan Washington National Airport. (See ICAO term AERONAUTICAL CHART.)

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AERONAUTICAL CHART [ICAO]- A representa‐ 0 m* f5 S. ~2 Q3 otion of a portion of the earth, its culture and relief, specifically designated to meet the requirements of 0 P0 U: [2 v# oair navigation. 3 A" ~ {! X% P" a2 }4 b6 xAERONAUTICAL INFORMATION MANUAL * o1 Y2 W6 l; v; s/ l" O(AIM)- A primary FAA publication whose purpose is to instruct airmen about operating in the National 4 z" ~/ X3 Y1 \; r0 }+ ~, n SAirspace System of the U.S. It provides basic flight ' b9 K6 z/ ~2 M& tinformation, ATC Procedures and general instruc‐ tional information concerning health, medical facts, 0 R3 E+ y: M# j" x3 `2 Ffactors affecting flight safety, accident and hazard # J6 J, M% @- R( [7 H; ureporting, and types of aeronautical charts and their use. AERONAUTICAL INFORMATION PUBLICA‐ TION (AIP) [ICAO]- A publication issued by or with . `$ }4 B' ?% |& J+ x1 z2/14/08 PCG A-4 the authority of a State and containing aeronautical + ~3 ]6 X @7 I7 E" m' b& einformation of a lasting character essential to air navigation. / w x& v! a0 kA/FD(See AIRPORT/FACILITY DIRECTORY.) ^4 b0 G# L, y' D$ H3 C) LAFFIRMATIVE- Yes. AFIS(See AUTOMATIC FLIGHT INFORMATION 8 M) Q* n6 ~9 K- P( q1 H5 P7 GSERVICE - ALASKA FSSs ONLY.) 4 D, s l4 }' Q+ N% |AFP(See AIRSPACE FLOW PROGRAM.) # e+ W$ n h3 K, ZAIM(See AERONAUTICAL INFORMATION MANUAL.) AIP [ICAO]- (See ICAO term AERONAUTICAL INFORMATION PUBLICATION.) AIR CARRIER DISTRICT OFFICE- An FAA field office serving an assigned geographical area, staffed ' P5 e4 x, f- u0 p- M2 h4 Swith Flight Standards personnel serving the aviation / v0 M9 U; V5 x. ?* V1 yindustry and the general public on matters related to the certification and operation of scheduled air + t2 V1 ?. O& x! R" y3 kcarriers and other large aircraft operations. 3 r7 G6 l1 b+ Q1 a8 c9 n% tAIR DEFENSE EMERGENCY- A military emer‐ 7 a" f4 C. V8 \" [) egency condition declared by a designated authority. This condition exists when an attack upon the continental U.S., Alaska, Canada, or U.S. installa‐ + q+ Y! `8 B6 p1 k1 j9 I& Ytions in Greenland by hostile aircraft or missiles is considered probable, is imminent, or is taking place. & Z+ C% w$ i2 n(Refer to AIM.) : n8 ?9 J& X- o$ l& x4 g6 XAIR DEFENSE IDENTIFICATION ZONE (ADIZ)- 8 F) K' z! M: N! z* g( sThe area of airspace over land or water, extending upward from the surface, within which the ready identification, the location, and the control of aircraft are required in the interest of national security. a. Domestic Air Defense Identification Zone. An ADIZ within the United States along an international ; z3 T7 a0 E' b' V9 x9 Rboundary of the United States. b. Coastal Air Defense Identification Zone. An ADIZ over the coastal waters of the United States. . x& L9 s- y$ s/ v4 z* I- b& ^. rc. Distant Early Warning Identification Zone - Z- m& O B0 k3 ^(DEWIZ). An ADIZ over the coastal waters of the State of Alaska. 4 z1 f( f0 p$ C" \0 Pd. Land-Based Air Defense Identification Zone. An ADIZ over U.S. metropolitan areas, which is / F6 D0 L$ e, z Q& j4 {activated and deactivated as needed, with dimen‐ / m' K3 n/ C5 D# J$ dsions, activation dates and other relevant information & r. h) A: R7 x2 kdisseminated via NOTAM. Note:ADIZ locations and operating and flight plan 3 J/ h C3 L L& brequirements for civil aircraft operations are speci‐ fied in 14 CFR Part 99. (Refer to AIM.) AIR NAVIGATION FACILITY- Any facility used - {4 f! p% Q1 Q7 W! c I/ xin, available for use in, or designed for use in, aid of 5 R) F) Y0 J& y+ Pair navigation, including landing areas, lights, any 0 ^+ O9 `" Q7 mapparatus or equipment for disseminating weather information, for signaling, for radio‐directional - ~: x5 P$ X7 x- ifinding, or for radio or other electrical communica‐ tion, and any other structure or mechanism having a similar purpose for guiding or controlling flight in the air or the landing and takeoff of aircraft. (See NAVIGATIONAL AID.) AIR ROUTE SURVEILLANCE RADAR- Air route ( l1 c q% x( Q& Y8 N4 d& ? Jtraffic control center (ARTCC) radar used primarily 7 U9 D5 G4 U) e; qto detect and display an aircraft's position while en route between terminal areas. The ARSR enables & K' ^# ?" ~$ [! zcontrollers to provide radar air traffic control service & h: w6 \* `- w1 V, Ywhen aircraft are within the ARSR coverage. In some instances, ARSR may enable an ARTCC to provide terminal radar services similar to but usually more limited than those provided by a radar approach control. # n4 Q% e* A* S9 |! g6 g- T$ AAIR ROUTE TRAFFIC CONTROL CENTER- A 7 }: i8 ]3 `, hfacility established to provide air traffic control 8 J8 ]/ w# F4 t- l* u, r1 U; gservice to aircraft operating on IFR flight plans within controlled airspace and principally during the ) u, L( v5 O. w; aen route phase of flight. When equipment capabilities ( t5 h5 D6 d+ g5 k: f6 R2 Iand controller workload permit, certain advisory/as‐ sistance services may be provided to VFR aircraft. (See EN ROUTE AIR TRAFFIC CONTROL SERVICES.) 7 I* F. Y# z4 m. | L(Refer to AIM.) : E8 _* N. l& c) W; }AIR TAXI- Used to describe a helicopter/VTOL aircraft movement conducted above the surface but # K& d e5 Z# B( |normally not above 100 feet AGL. The aircraft may proceed either via hover taxi or flight at speeds more than 20 knots. The pilot is solely responsible for ( W4 |. q R7 n1 I5 _/ l! sselecting a safe airspeed/altitude for the operation being conducted. (See HOVER TAXI.) 5 H: c! [0 L+ ]; J2 @& g$ B(Refer to AIM.) Pilot/Controller Glossary 7/31/08 Pilot/Controller Glossary 2/14/08 PCG A-5 AIR TRAFFIC- Aircraft operating in the air or on an 1 i+ Y' s. m. Mairport surface, exclusive of loading ramps and , Y! v3 P& Q q- t, gparking areas. : ^- ^. B4 x8 r# O. s(See ICAO term AIR TRAFFIC.) AIR TRAFFIC [ICAO]- All aircraft in flight or # f7 r1 p$ c8 B% ]# Aoperating on the maneuvering area of an aerodrome. + [+ M, z: C: x+ P" ^8 P; p5 z9 YAIR TRAFFIC CLEARANCE- An authorization by air traffic control for the purpose of preventing collision between known aircraft, for an aircraft to proceed under specified traffic conditions within controlled airspace. The pilot‐in‐command of an : e( y8 r9 s' v) Q0 `) f1 ^4 Jaircraft may not deviate from the provisions of a 0 e T" c7 g0 O! H* Z6 U, Tvisual flight rules (VFR) or instrument flight rules (IFR) air traffic clearance except in an emergency or unless an amended clearance has been obtained. Additionally, the pilot may request a different clearance from that which has been issued by air " _+ P- Y4 [" i M2 O; w* P9 Ktraffic control (ATC) if information available to the pilot makes another course of action more practicable or if aircraft equipment limitations or company # ~; D2 C4 H* O* M6 F3 I% b0 Lprocedures forbid compliance with the clearance issued. Pilots may also request clarification or , r3 r( P" V% \6 P% j( R8 x6 c4 camendment, as appropriate, any time a clearance is not fully understood, or considered unacceptable ( f% v& M* D4 A# qbecause of safety of flight. Controllers should, in such instances and to the extent of operational & V# s' `. ?" Y% H3 _' Q- Mpracticality and safety, honor the pilot's request. 14 CFR Part 91.3(a) states: “The pilot in command ; @9 h/ D' |5 q8 ]of an aircraft is directly responsible for, and is the 3 E" a( G, ]( O- T$ j g9 Mfinal authority as to, the operation of that aircraft.” # k+ v2 t. W4 C- s4 iTHE PILOT IS RESPONSIBLE TO REQUEST AN AMENDED CLEARANCE if ATC issues a clearance that would cause a pilot to deviate from a rule or regulation, or in the pilot's opinion, would 6 [' B7 K% Y" _4 t# h; T, k0 yplace the aircraft in jeopardy. (See ATC INSTRUCTIONS.) (See ICAO term AIR TRAFFIC CONTROL $ S4 v: z" W% r* B2 u4 y- u# ~/ _CLEARANCE.) & \; t3 {7 ]$ B3 G, iAIR TRAFFIC CONTROL- A service operated by appropriate authority to promote the safe, orderly and , u' {, y6 h7 G, t& x* z% C9 bexpeditious flow of air traffic. (See ICAO term AIR TRAFFIC CONTROL SERVICE.) AIR TRAFFIC CONTROL CLEARANCE [ICAO]- Authorization for an aircraft to proceed under 7 l. }& B! h; }5 f0 i* v" l, [conditions specified by an air traffic control unit. . _3 d$ [8 N5 ~Note 1:For convenience, the term air traffic control 7 L; Q' a2 {$ C: Bclearance is frequently abbreviated to clearance 3 }+ m3 \3 [( m u' L3 ^when used in appropriate contexts. Note 2:The abbreviated term clearance may be ) C; U4 e+ H: Q9 m1 V; N4 O* zprefixed by the words taxi, takeoff, departure, en ) {9 Q8 G: G0 ]5 Wroute, approach or landing to indicate the particular portion of flight to which the air traffic control clear‐ ance relates. 4 A9 M0 g: i% L+ z/ p0 n5 E8 v: KAIR TRAFFIC CONTROL SERVICE(See AIR TRAFFIC CONTROL.) . h* [3 [$ B3 i2 Y# }) GAIR TRAFFIC CONTROL SERVICE [ICAO]- A . e& T9 j0 M" v. v$ H- V9 cservice provided for the purpose of: a. reventing collisions: 1. Between aircraft; and 4 V$ h$ M! @ e+ U2. On the maneuvering area between aircraft and obstructions. b. Expediting and maintaining an orderly flow of 7 S5 T( s6 G! _4 J- m% Mair traffic. AIR TRAFFIC CONTROL SPECIALIST- A person authorized to provide air traffic control service. & z1 ]+ Y. @8 k+ [0 @9 g0 n) m- x6 z(See AIR TRAFFIC CONTROL.) $ F" R+ Z6 @7 D) Y(See FLIGHT SERVICE STATION.) (See ICAO term CONTROLLER.) AIR TRAFFIC CONTROL SYSTEM COMMAND + w7 w2 u$ n9 {CENTER (ATCSCC) - An Air Traffic Tactical 1 h. F& D/ V8 k, I# _' c h0 TOperations facility responsible for monitoring and managing the flow of air traffic throughout the NAS, % P2 R+ C6 [/ H- Rproducing a safe, orderly, and expeditious flow of 1 \, b! c7 x7 G' x" I+ H- Ztraffic while minimizing delays. The following 7 B) H9 {) g' j, ufunctions are located at the ATCSCC: + l r8 e0 ~ ~0 m$ x1 N% h1 q! Oa. Central Altitude Reservation Function 3 d/ V; L1 ^3 W1 R(CARF). Responsible for coordinating, planning, and approving special user requirements under the Altitude Reservation (ALTRV) concept. (See ALTITUDE RESERVATION.) : L" j# Q! O& u7 w5 u' Zb. Airport Reservation Office (ARO). Responsible for approving IFR flights at designated high density traffic airports (John F. Kennedy, 2 m5 ~) ^, U M- G- vLaGuardia, and Ronald Reagan Washington National) during specified hours. (Refer to 14 CFR Part 93.) (Refer to AIRPORT/FACILITY DIRECTORY.) 7/31/08 Pilot/Controller Glossary 2/14/08 + x/ b+ n/ U O" Q3 h9 m( S* F! zPCG A-6 c. U.S. Notice to Airmen (NOTAM) Office. + E0 N3 Y! T" A- q( W8 p- UResponsible for collecting, maintaining, and distrib‐ . `/ b+ ?& t$ n8 p+ V3 ~. nuting NOTAMs for the U.S. civilian and military, as well as international aviation communities. P4 n; e. Z2 C) _ E+ i% v* Z(See NOTICE TO AIRMEN.) d. Weather Unit. Monitor all aspects of weather for the U.S. that might affect aviation including cloud cover, visibility, winds, precipitation, thunderstorms, 7 Y) P# d, n# a. ^icing, turbulence, and more. Provide forecasts based + M0 ^1 Z n+ [5 z Q7 R8 Gon observations and on discussions with meteorolo‐ gists from various National Weather Service offices, 3 Z# O1 v6 ?3 Z- P, Z' ~9 ^FAA facilities, airlines, and private weather services. AIR TRAFFIC SERVICE- A generic term meaning: a. Flight Information Service. b. Alerting Service. c. Air Traffic Advisory Service. ' l( T4 s! h+ X0 M- |d. Air Traffic Control Service: 1. Area Control Service, 2. Approach Control Service, or 3. Airport Control Service.

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AIR TRAFFIC SERVICE (ATS) ROUTES - The * D' T" i5 x7 T6 _. f. Zterm “ATS Route” is a generic term that includes “VOR Federal airways,” “colored Federal airways,” 0 u f/ [, j; D" ^“jet routes,” and “RNAV routes.” The term “ATS ) c' a& h# y0 P+ j* ]! T$ a5 Froute” does not replace these more familiar route names, but serves only as an overall title when listing * B+ W- E( A% x; vthe types of routes that comprise the United States route structure. AIRBORNE DELAY- Amount of delay to be " a- |9 h9 z) q6 t0 \/ p. u4 O1 `encountered in airborne holding. AIRCRAFT- Device(s) that are used or intended to % x* ~0 q% ~3 g; g* p0 lbe used for flight in the air, and when used in air traffic % C4 V- n3 s% A$ ?9 g: L* acontrol terminology, may include the flight crew. (See ICAO term AIRCRAFT.) AIRCRAFT [ICAO]- Any machine that can derive 4 R8 D/ z8 v$ F. j5 Ssupport in the atmosphere from the reactions of the air $ `1 P% x: N& M/ Z! S4 oother than the reactions of the air against the earth's surface. & B0 d( D( p2 r5 z+ d+ n: [AIRCRAFT APPROACH CATEGORY- A grouping of aircraft based on a speed of 1.3 times the stall speed in the landing configuration at maximum 8 l+ k, k8 c" T5 {: Vgross landing weight. An aircraft must fit in only one category. If it is necessary to maneuver at speeds in excess of the upper limit of a speed range for a 0 t8 T# l8 R% K% bcategory, the minimums for the category for that " B5 l; M4 q9 ^ R+ n" t& Xspeed must be used. For example, an aircraft which falls in Category A, but is circling to land at a speed in excess of 91 knots, must use the approach " A _/ p+ m3 }* }& ^8 MCategoryB minimums when circling to land. The q, M! I( c' w% bcategories are as follows: a. Category A- Speed less than 91 knots. : t- B8 U+ [2 c; w ^( ]7 yb. Category B- Speed 91 knots or more but less & I: Y, ?5 l# H0 S$ `- j; Dthan 121 knots. c. Category C- Speed 121 knots or more but less than 141 knots. b) |% r% l4 X5 Nd. Category D- Speed 141 knots or more but less than 166 knots. 9 t$ N5 K$ n2 ye. Category E- Speed 166 knots or more. (Refer to 14 CFR Part 97.) AIRCRAFT CLASSES- For the purposes of Wake Turbulence Separation Minima, ATC classifies aircraft as Heavy, Large, and Small as follows: a. Heavy- Aircraft capable of takeoff weights of 9 t+ r X4 [ U3 x: ^9 Y' ]5 D$ imore than 255,000 pounds whether or not they are operating at this weight during a particular phase of 1 ~4 h: l$ F% C9 y$ Hflight. " W. u8 y7 o7 kb. Large- Aircraft of more than 41,000 pounds, 1 K- p4 d9 N. b3 b2 Q2 }! mmaximum certificated takeoff weight, up to 255,000 ( p+ }: S& m8 P% d( B- hpounds. 2 _. c. B' G& x; [c. Small- Aircraft of 41,000 pounds or less . B: k: o' T+ y3 k/ bmaximum certificated takeoff weight. (Refer to AIM.) 5 Z, V: C l+ h. R! PAIRCRAFT CONFLICT- Predicted conflict, within ' z* P! x# C4 v3 i1 JURET, of two aircraft, or between aircraft and airspace. A Red alert is used for conflicts when the predicted minimum separation is 5 nautical miles or less. A Yellow alert is used when the predicted minimum separation is between 5 and approximately . }2 g. O/ H/ b/ M) W0 J( [4 ^' X7 O/ N1 O; S12 nautical miles. A Blue alert is used for conflicts . {: ?% W# i; T }2 Z9 rbetween an aircraft and predefined airspace. (See USER REQUEST EVALUATION TOOL.) AIRCRAFT LIST (ACL)- A view available with URET that lists aircraft currently in or predicted to be & U! Z+ n4 x1 Min a particular sector's airspace. The view contains textual flight data information in line format and may ! R- r6 g0 q. z; Kbe sorted into various orders based on the specific . \* G! b9 T; T/ v1 y$ ]# K+ Gneeds of the sector team. (See USER REQUEST EVALUATION TOOL.) 5 f8 {7 [7 C# pAIRCRAFT SURGE LAUNCH AND RECOVERY- Procedures used at USAF bases to provide increased launch and recovery rates in ( W. {6 s/ M7 \9 D5 C* Vinstrument flight rules conditions. ASLAR is based + L* A: Z8 G/ ]8 q; V: Gon: 0 `2 e9 S' ^7 ^Pilot/Controller Glossary 7/31/08 : K3 g ^) I8 ^+ x4 hPilot/Controller Glossary 2/14/08 PCG A-7 a. Reduced separation between aircraft which is based on time or distance. Standard arrival separation applies between participants including multiple 2 c& x% j/ z5 W$ f, H* |5 Xflights until the DRAG point. The DRAG point is a $ T. O5 b4 `3 [, W# G- G) Spublished location on an ASLAR approach where aircraft landing second in a formation slows to a ' y. M# {+ O1 ?) }predetermined airspeed. The DRAG point is the reference point at which MARSA applies as expanding elements effect separation within a flight 9 |7 j0 O) p& P6 B0 N* _or between subsequent participating flights. b. ASLAR procedures shall be covered in a Letter 5 J: A5 F8 j) e7 Z }of Agreement between the responsible USAF military ATC facility and the concerned Federal 3 h5 x0 l# i5 H- [2 H$ ?" U7 wAviation Administration facility. Initial Approach Fix spacing requirements are normally addressed as a minimum. 8 Z& S" K& K3 u$ ~; @7 XAIRMEN'S METEOROLOGICAL INFORMATION(See AIRMET.) AIRMET- In‐flight weather advisories issued only 0 X5 n. Z+ s0 @2 ito amend the area forecast concerning weather phenomena which are of operational interest to all aircraft and potentially hazardous to aircraft having limited capability because of lack of equipment, instrumentation, or pilot qualifications. AIRMETs & Y `0 g' h+ E8 Z: y7 ~concern weather of less severity than that covered by SIGMETs or Convective SIGMETs. AIRMETs ( L b! Z4 d6 l. R" q& g. gcover moderate icing, moderate turbulence, sustained : G6 Z$ T5 @; C, `& e$ L8 C7 Dwinds of 30 knots or more at the surface, widespread " E0 ~# I: I: }# O. Fareas of ceilings less than 1,000 feet and/or visibility 4 O) f$ T/ b: N8 W& ?" ]less than 3 miles, and extensive mountain 1 S8 y _, W! N6 @obscurement. : u- E; Y& f3 d0 Z |(See AWW.) 5 y$ \# q l0 N+ j$ U* Q! u! K(See CONVECTIVE SIGMET.) 7 u5 S U) q7 e5 y. i7 w$ l; `(See CWA.) (See SIGMET.) (Refer to AIM.) AIRPORT- An area on land or water that is used or + M# X5 V' u4 I3 N/ T8 ointended to be used for the landing and takeoff of ' B. Q, R( }; y: {aircraft and includes its buildings and facilities, if - G& [" w/ |* x1 B$ x2 m+ E+ n' Tany. AIRPORT ADVISORY AREA- The area within ten , i A4 K `4 o5 v' F/ p6 kmiles of an airport without a control tower or where ' @2 a; C: d% W0 v) O/ ? n( Athe tower is not in operation, and on which a Flight Service Station is located. (See LOCAL AIRPORT ADVISORY.) (Refer to AIM.) AIRPORT ARRIVAL RATE (AAR)- A dynamic ( c6 X9 V$ L8 e% o4 Hinput parameter specifying the number of arriving aircraft which an airport or airspace can accept from " B$ p. ?# k$ ~2 n- Lthe ARTCC per hour. The AAR is used to calculate 0 A/ D! s: q- r% s, f# M' Z' Ythe desired interval between successive arrival aircraft. AIRPORT DEPARTURE RATE (ADR)- A dynamic parameter specifying the number of aircraft which can depart an airport and the airspace can accept per hour.

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AIRPORT ELEVATION- The highest point of an + r/ G1 Y) E$ v5 K7 p ~7 bairport's usable runways measured in feet from mean $ Q' E# y! F$ C, r% }' @, X! B! ]' b* Vsea level. (See TOUCHDOWN ZONE ELEVATION.) : B4 H+ F( F* k$ {(See ICAO term AERODROME ELEVATION.) AIRPORT/FACILITY DIRECTORY- A publication ; ]% T8 u* I! i' g u, zdesigned primarily as a pilot's operational manual 8 S0 A* [6 x0 K% E/ Ycontaining all airports, seaplane bases, and heliports open to the public including communications data, navigational facilities, and certain special notices and procedures. This publication is issued in seven volumes according to geographical area. AIRPORT LIGHTING- Various lighting aids that , g: ]0 u1 j3 umay be installed on an airport. Types of airport + q4 `6 a3 z% a+ hlighting include: a. Approach Light System (ALS)- An airport lighting facility which provides visual guidance to landing aircraft by radiating light beam s in a directional pattern by which the pilot aligns the b9 `* ^) }% o6 ?* a. j$ S$ N& p* Faircraft with the extended centerline of the runway on * v* D4 `( C9 z* F0 Jhis/her final approach for landing. Condenser‐ Discharge Sequential Flashing Lights/Sequenced Flashing Lights may be installed in conjunction with the ALS at some airports. Types of Approach Light Systems are: . F" R" Y& }- j/ b. f) _1. ALSF‐1- Approach Light System with / f: m' O: l+ d8 D( tSequenced Flashing Lights in ILS Cat‐I configura‐ tion. " a) c' }. G& a1 y1 |# y2. ALSF‐2- Approach Light System with [& w% M4 X T7 I) d' BSequenced Flashing Lights in ILS Cat‐II configura‐ ( i( t: {2 U8 u- T% \- ]tion. The ALSF‐2 may operate as an SSALR when weather conditions permit. # g) h2 Z, ~8 T4 n; I6 z3. SSALF- Simplified Short Approach Light System with Sequenced Flashing Lights. + \% E2 s6 e5 h: j4. SSALR- Simplified Short Approach Light 0 Z% R3 N, [! R. ^8 [* N2 iSystem with Runway Alignment Indicator Lights. 5. MALSF- Medium Intensity Approach Light System with Sequenced Flashing Lights. * v8 T* @( O2 e9 P+ i5 |7/31/08 Pilot/Controller Glossary " u g" Y. ^! g* j: S2/14/08 PCG A-8 3 z3 ]8 {4 z4 T* @# r6. MALSR- Medium Intensity Approach Light 7 J% E, d$ H7 g9 M0 nSystem with Runway Alignment Indicator Lights. ) `, f; W7 p0 A& ^1 A/ `" N$ A7. LDIN- Lead‐in‐light system- Consists of : B) I0 ~$ k, v: [one or more series of flashing lights installed at or near ground level that provides positive visual % K: Q( i6 ?9 W, @guidance along an approach path, either curving or ! r' ^# ? u4 n. E& k- M, `straight, where special problems exist with hazardous ! c* T3 C0 z1 c: o; E$ k* Y) ] dterrain, obstructions, or noise abatement procedures. # ?5 c, m$ l0 }8 h, h8. RAIL- Runway Alignment Indicator Lights- ( z6 H" r- N2 \$ c7 HSequenced Flashing Lights which are installed only in combination with other light systems. 9. ODALS- Omnidirectional Approach Light‐ , x$ m# }3 T% |/ ~ ~ing System consists of seven omnidirectional ) A! p3 u4 z( Hflashing lights located in the approach area of a % N9 Q; t( h1 V* `8 I0 L- Rnonprecision runway. Five lights are located on the 4 P- I0 G' y* A- L9 U! }runway centerline extended with the first light located 300 feet from the threshold and extending at equal intervals up to 1,500 feet from the threshold. & I# B# P/ W# q( U" L8 ]9 eThe other two lights are located, one on each side of ) `& T& v" U6 Gthe runway threshold, at a lateral distance of 40 feet from the runway edge, or 75 feet from the runway edge when installed on a runway equipped with a VASI. (Refer to FAAO JO 6850.2, VISUAL GUIDANCE 9 C: V2 N0 J' T9 VLIGHTING SYSTEMS.) b. Runway Lights/Runway Edge Lights- Lights having a prescribed angle of emission used to define the lateral limits of a runway. Runway lights are ?6 D5 d6 G* N7 [. f" {& Xuniformly spaced at intervals of approximately 200 feet, and the intensity may be controlled or preset. c. Touchdown Zone Lighting- Two rows of transverse light bars located symmetrically about the 1 G6 {5 V& x4 _* B i9 q' xrunway centerline normally at 100 foot intervals. The 6 |$ l# d7 N& k& O5 z5 n. X% `5 Ibasic system extends 3,000 feet along the runway. - I' S- h) s, ^, Q. Kd. Runway Centerline Lighting- Flush centerline 1 Y7 j. }9 }3 t. d& R9 Jlights spaced at 50‐foot intervals beginning 75 feet e. i) J- v$ U" |2 Y# [from the landing threshold and extending to within 75 feet of the opposite end of the runway. e. Threshold Lights- Fixed green lights arranged ; F7 e5 a+ }& z1 J5 q1 A msymmetrically left and right of the runway centerline, 5 |3 Q3 f; y y5 Y* }$ m6 ]identifying the runway threshold. . p3 I7 g. ^8 f2 df. Runway End Identifier Lights (REIL)- Two 2 N/ b, e" z+ A+ a* y: csynchronized flashing lights, one on each side of the ) U# |% I' N! C3 rrunway threshold, which provide rapid and positive identification of the approach end of a particular $ z& s/ g# A# ^6 R0 Crunway. 8 s0 ?5 F2 @; O. G# d8 X& j& Ug. Visual Approach Slope Indicator (VASI)- An airport lighting facility providing vertical visual approach slope guidance to aircraft during approach to landing by radiating a directional pattern of high intensity red and white focused light beams which 1 q+ d0 D" Y2 K$ d8 {, B& ]indicate to the pilot that he/she is “on path” if he/she sees red/white, “above path” if white/white, and ' c2 Z. K% L, {3 f“below path” if red/red. Some airports serving large aircraft have three‐bar VASIs which provide two visual glide paths to the same runway. + t4 _8 N% P* g f0 \h. recision Approach Path Indicator (PAPI)- An airport lighting facility, similar to VASI, providing vertical approach slope guidance to aircraft during approach to landing. PAPIs consist of a single row of either two or four lights, normally installed on the left $ T2 i4 `$ x& {& q! m" G, Eside of the runway, and have an effective visual range of about 5 miles during the day and up to 20 miles at 8 m% X$ O9 l# U8 Bnight. PAPIs radiate a directional pattern of high intensity red and white focused light beams which % \$ n \) a( r$ l# Uindicate that the pilot is “on path” if the pilot sees an equal number of white lights and red lights, with white to the left of the red; “above path” if the pilot sees more white than red lights; and “below path” if the pilot sees more red than white lights. i. Boundary Lights- Lights defining the perimeter 2 N* K" K8 p4 e o3 L- G' kof an airport or landing area. $ q; ^& i) M1 E. _# T5 G(Refer to AIM.) . z y. t! y X$ C, {3 d9 ~AIRPORT MARKING AIDS- Markings used on runway and taxiway surfaces to identify a specific 9 w: G* K: D/ v/ E2 frunway, a runway threshold, a centerline, a hold line, 4 e T& F- t: H4 Eetc. A runway should be marked in accordance with & A3 X. ^. ^( J' k$ H3 @9 V9 oits present usage such as: a. Visual. b. Nonprecision instrument. $ z$ T6 q& `8 w: B4 _/ tc. recision instrument. (Refer to AIM.) AIR PORT REFERENCE POINT (ARP)- The 2 ~7 r) T( V$ D+ Yapproximate geometric center of all usable runway * E, J% X, H* f2 v$ y! |: Csurfaces. AIRPORT RESERVATION OFFICE- Office re‐ sponsible for monitoring the operation of the high density rule. Receives and processes requests for : b' w5 Y& a; a6 I9 A! ?8 GIFR-operations at high density traffic airports. AIRPORT ROTATING BEACON- A visual NAVAID operated at many airports. At civil airports, alternating white and green flashes indicate the location of the airport. At military airports, the , i; R3 M/ Q0 V9 X9 ~beacons flash alternately white and green, but are Pilot/Controller Glossary 7/31/08 ! I6 t! E7 |' p8 _5 L; c1 S- NPilot/Controller Glossary 2/14/08 / {$ p! }9 H9 [: R/ }& e' F7 b2 tPCG A-9 differentiated from civil beacons by dualpeaked (two / b$ k6 d& W3 g, c2 H! [, Iquick) white flashes between the green flashes. (See INSTRUMENT FLIGHT RULES.) 3 }' z$ Y/ g3 U9 Y" N/ ~- u(See SPECIAL VFR OPERATIONS.) (See ICAO term AERODROME BEACON.) : F6 ]# b8 W3 u3 s(Refer to AIM.) , J5 m! C% K5 P) l9 U: c1 S1 z* OAIRPORT STREAM FILTER (ASF)- An on/off filter that allows the conflict notification function to ( _ S7 |' e9 Z1 N1 ~! e. I/ Gbe inhibited for arrival streams into single or multiple airports to prevent nuisance alerts. AIRPORT SURFACE DETECTION EQUIPMENT . D m* K: T- Y S9 W(ASDE)- Surveillance equipment specifically de‐ ! `: X; e! a& t/ h1 e* w1 Csigned to detect aircraft, vehicular traffic, and other objects, on the surface of an airport, and to present the image on a tower display. Used to augment visual 6 j, V$ h- S- B( W$ n; o8 cobservation by tower personnel of aircraft and/or vehicular movements on runways and taxiways. , V, a' f9 \' S+ F% dThere are three ASDE systems deployed in the NAS: $ m7 r0 ~/ D3 v: H- La. ASDE-3- a Surface Movement Radar. b. ASDE-X- a system that uses a X-band Surface Movement Radar and multilateration. Data from these two sources are fused and presented on a digital display. c. ASDE-3X- an ASDE-X system that uses the 6 B R! Q" g/ }, G7 UASDE-3 Surface Movement Radar. AIRPORT SURVEILLANCE RADAR- Approach ) n3 {7 `( g8 e9 ~) Zcontrol radar used to detect and display an aircraft's ! g u4 \+ [& mposition in the terminal area. ASR provides range and azimuth information but does not provide elevation % q5 o0 G' H8 L5 \- Z, \2 q! Mdata. Coverage of the ASR can extend up to 60 miles. ( c" c4 F* V9 y# T% w% \$ v6 h: V; fAIRPORT TAXI CHARTS(See AERONAUTICAL CHART.) AIRPORT TRAFFIC CONTROL SERVICE- A 4 U, G3 g0 J$ `+ I7 [1 i2 fservice provided by a control tower for aircraft operating on the movement area and in the vicinity of an airport. (See MOVEMENT AREA.) (See TOWER.) 2 R6 d) M+ P" V" S% \$ p, B(See ICAO term AERODROME CONTROL SERVICE.) ! |% ^/ \+ L5 [# w$ `) KAIRPORT TRAFFIC CONTROL TOWER(See TOWER.) , R/ y& f8 R# ]AIRSPACE CONFLICT- Predicted conflict of an aircraft and active Special Activity Airspace (SAA). AIRSPACE FLOW PROGRAM (AFP)- AFP is a Traffic Management (TM) process administered by the Air Traffic Control System Command Center 1 Y+ X* E2 V6 A3 x5 ?' [# Z! b(ATCSCC) where aircraft are assigned an Expect 3 O" H6 W% \: q* Q l" }4 hDeparture Clearance Time (EDCT) in order to manage capacity and demand for a specific area of the National Airspace System (NAS). The purpose of the * r& v9 d" n8 x. ?$ g$ aprogram is to mitigate the effects of en route & s) x# U6 R/ H4 h9 Bconstraints. It is a flexible program and may be implemented in various forms depending upon the needs of the air traffic system. AIRSPACE HIERARCHY- Within the airspace classes, there is a hierarchy and, in the event of an ! f* B# B4 [* `% @overlap of airspace: Class A preempts Class B, Class B preempts Class C, Class C preempts Class D, Class " d2 d6 }! x1 G& k/ C7 [D preempts Class E, and Class E preempts Class G. AIRSPEED- The speed of an aircraft relative to its surrounding air mass. The unqualified term . ~( p4 T* C$ d“airspeed” means one of the following: a. Indicated Airspeed- The speed shown on the aircraft airspeed indicator. This is the speed used in pilot/controller communications under the general term “airspeed.” & ]! a4 m5 J7 ] I/ g B(Refer to 14 CFR Part 1.) b. True Airspeed- The airspeed of an aircraft relative to undisturbed air. Used primarily in flight * I( j" v7 j: Oplanning and en route portion of flight. When used in pilot/controller communications, it is referred to as “true airspeed” and not shortened to “airspeed.” AIRSTART- The starting of an aircraft engine while % E" Z" m6 [9 O1 qthe aircraft is airborne, preceded by engine shutdown 2 D" i2 l- A# F) nduring training flights or by actual engine failure. AIRWAY- A Class E airspace area established in the form of a corridor, the centerline of which is defined ]& I5 U' ?# m. ^by radio navigational aids. (See FEDERAL AIRWAYS.) (See ICAO term AIRWAY.) (Refer to 14 CFR Part 71.) (Refer to AIM.) 9 r( @" r+ v' x: C; lAIRWAY [ICAO]- A control area or portion thereof , J9 L/ {; v: e# J$ J3 Bestablished in the form of corridor equipped with radio navigational aids. / J5 y, `; k. f4 I" eAIRWAY BEACON- Used to mark airway segments in remote mountain areas. The light flashes Morse Code to identify the beacon site. (Refer to AIM.) $ W( r N# J4 \8 P: K+ FAIT(See AUTOMATED INFORMATION 5 l9 u) \/ J, R% Q. MTRANSFER.) 7/31/08 Pilot/Controller Glossary 2/14/08 / H( X L+ r S. G& pPCG A-10 ALERFA (Alert Phase) [ICAO]- A situation wherein 4 L! P1 K' g3 f" w, uapprehension exists as to the safety of an aircraft and * S, g3 R: K4 x7 q0 m6 hits occupants. 4 `' B' d: L. t. TALERT- A notification to a position that there is an aircraft‐to‐aircraft or aircraft‐to‐airspace conflict, as detected by Automated Problem % \) U" @ k: K+ H% @) h: ZDetection (APD). ALERT AREA(See SPECIAL USE AIRSPACE.) ALERT NOTICE- A request originated by a flight + `% |: h* J( Y/ x3 K+ S0 qservice station (FSS) or an air route traffic control , P( J- Z( U) E7 F4 N3 s) fcenter (ARTCC) for an extensive communication * Y0 H5 c3 V& E/ C6 X+ Ssearch for overdue, unreported, or missing aircraft. ALERTING SERVICE- A service provided to notify 8 x% E C# Q1 a" c- Yappropriate organizations regarding aircraft in need # W5 {, k% l% x9 ?4 Bof search and rescue aid and assist such organizations . P) x8 V4 h/ x {4 z! m. Qas required. / k; ^6 o7 v3 l2 j9 `- y2 h3 CALNOT(See ALERT NOTICE.) ALONG-TRACK DISTANCE (ATD)- The distance ; ?( j# s) @' \measured from a point‐in‐space by systems using area navigation reference capabilities that are not 0 h% ~/ y/ c1 g' Fsubject to slant range errors. ALPHANUMERIC DISPLAY- Letters and numer‐ , @' C) k; ]6 J7 X3 e* a: S% lals used to show identification, altitude, beacon code, u# A3 E) J/ H% pand other information concerning a target on a radar display. % [/ o9 K+ {& Q) k1 ?/ J/ X(See AUTOMATED RADAR TERMINAL SYSTEMS.)

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ALTERNATE AERODROME [ICAO]- An aero‐ ! X. y$ o( T9 T1 k4 [& v( ^drome to which an aircraft may proceed when it 6 p( J8 u) }6 h, _( Hbecomes either impossible or inadvisable to proceed to or to land at the aerodrome of intended landing. Note:The aerodrome from which a flight departs may also be an en‐route or a destination alternate , T4 q" |' u/ g \aerodrome for the flight. : d, b4 ]( K9 l& \9 {: I) \& kALTERNATE AIRPORT- An airport at which an $ U7 @4 {3 u: N! u1 K; h% laircraft may land if a landing at the intended airport becomes inadvisable. (See ICAO term ALTERNATE AERODROME.) ' S6 c) K' i7 t5 m Q4 x7 ^ALTIMETER SETTING- The barometric pressure reading used to adjust a pressure altimeter for ! I4 ~% z' ]/ |8 y& s/ Evariations in existing atmospheric pressure or to the 5 k7 u i1 V" }: _8 k6 c, @% V" istandard altimeter setting (29.92). , i& |$ Y( @ o4 u(Refer to 14 CFR Part 91.) (Refer to AIM.) ALTITUDE- The height of a level, point, or object - {* ]5 f3 ^ L; Hmeasured in feet Above Ground Level (AGL) or from Mean Sea Level (MSL). 0 W! O! C/ e! \(See FLIGHT LEVEL.) 6 c% b1 s9 }7 La. MSL Altitude- Altitude expressed in feet measured from mean sea level. * |: a3 W$ K4 N- Kb. AGL Altitude- Altitude expressed in feet measured above ground level. 4 t' R' m: x8 R- ^$ l5 {c. Indicated Altitude- The altitude as shown by an altimeter. On a pressure or barometric altimeter it is altitude as shown uncorrected for instrument error and uncompensated for variation from standard : i/ I( b7 s( u0 j+ @- F( @7 aatmospheric conditions. (See ICAO term ALTITUDE.) ALTITUDE [ICAO]- The vertical distance of a level, a point or an object considered as a point, measured from mean sea level (MSL). ( e- u/ r) g: K+ ZALTITUDE READOUT- An aircraft's altitude, & ?" x9 j' D0 j, j+ K$ q ztransmitted via the Mode C transponder feature, that is visually displayed in 100‐foot increments on a radar scope having readout capability. (See ALPHANUMERIC DISPLAY.) (See AUTOMATED RADAR TERMINAL SYSTEMS.) ) n( Y( |1 Y) `" t# R(Refer to AIM.) % a& ?" B" t$ x, a+ }ALTITUDE RESERVATION- Airspace utilization under prescribed conditions normally employed for * b+ r. I% y1 N9 L( ]# f7 kthe mass movement of aircraft or other special user requirem ents which cannot otherwise be " m; X, O. y) p& ?, S/ caccomplished. ALTRVs are approved by the appropriate FAA facility. 7 T+ L$ I2 s+ W5 s/ h3 @2 k(See AIR TRAFFIC CONTROL SYSTEM # k/ y0 H! T/ K1 t: g. SCOMMAND CENTER.) ALTITUDE RESTRICTION- An altitude or alti‐ tudes, stated in the order flown, which are to be maintained until reaching a specific point or time. ; `5 N5 p, g- mAltitude restrictions may be issued by ATC due to 6 ?$ T7 n; A$ C0 |traffic, terrain, or other airspace considerations. ( G' ]. @, s f7 AALTITUDE RESTRICTIONS ARE CANCELED- Adherence to previously imposed altitude restric‐ / V# g3 _, `- C! r" [$ t) Mtions is no longer required during a climb or descent. ) W6 w0 u' L% [8 ]' @" GALTRV(See ALTITUDE RESERVATION.) AMVER(See AUTOMATED MUTUAL‐ASSISTANCE 0 y! H* t; T; u5 \VESSEL RESCUE SYSTEM.) APB(See AUTOMATED PROBLEM DETECTION BOUNDARY.) Pilot/Controller Glossary 7/31/08 ) J( J6 U; I9 P; W$ `% bPilot/Controller Glossary 2/14/08 PCG A-11 6 r! L, v* N9 \1 yAPD(See AUTOMATED PROBLEM DETECTION.) APDIA(See AUTOMATED PROBLEM DETECTION INHIBITED AREA.) APPROACH CLEARANCE- Authorization by k0 Q F& X9 G: T& wATC for a pilot to conduct an instrument approach. + e, f9 i4 d6 m% p3 jThe type of instrument approach for which a clearance and other pertinent information is provided ' `, U0 t E! K a: H# jin the approach clearance when required. % F3 p0 i5 b6 c( X' X(See CLEARED APPROACH.) i6 W5 W& R8 R# g1 j x' E(See INSTRUMENT APPROACH PROCEDURE.) (Refer to AIM.) - s- \1 o+ d& s6 Y9 C) ](Refer to 14 CFR Part 91.) APPROACH CONTROL FACILITY- A terminal 4 B# O _. I2 JATC facility that provides approach control service in a terminal area. 9 i5 F/ ]% P% N" ?9 f: z+ m(See APPROACH CONTROL SERVICE.) 7 @/ o5 a4 u' y @(See RADAR APPROACH CONTROL 2 X' }: X: E% I4 S+ QFACILITY.) APPROACH CONTROL SERVICE- Air traffic control service provided by an approach control * V" O2 Q# N% U4 W- I' tfacility for arriving and departing VFR/IFR aircraft , b& O9 y! X2 y2 eand, on occasion, en route aircraft. At some airports not served by an approach control facility, the ARTCC provides limited approach control service. . E/ ] V3 x( F(See ICAO term APPROACH CONTROL , A: p) L4 b) t' c ~7 v! C E5 ISERVICE.) (Refer to AIM.) 0 w: ?" w, r* A$ X9 XAPPROACH CONTROL SERVICE [ICAO]- Air traffic control service for arriving or departing controlled flights. APPROACH GATE- An imaginary point used , c. I+ d" `- n; H+ g/ @within ATC as a basis for vectoring aircraft to the final approach course. The gate will be established * a' l2 X- L* v1 h; r J& _along the final approach course 1 mile from the final , A4 \/ y9 p& g' W$ _; F# o# fapproach fix on the side away from the airport and will be no closer than 5 miles from the landing threshold. , [5 b! S* D4 s# o1 |! ?% ]APPROACH LIGHT SYSTEM(See AIRPORT LIGHTING.) " b- L: F/ m. F; A: |APPROACH SEQUENCE- The order in which aircraft are positioned while on approach or awaiting 2 [& E0 Z5 H: h7 N. R @5 Gapproach clearance. & ~3 @" W( x$ q2 l2 y8 Y(See LANDING SEQUENCE.) (See ICAO term APPROACH SEQUENCE.) APPROACH SEQUENCE [ICAO]- The order in which two or more aircraft are cleared to approach to 6 c0 m* W" t5 C& S; v8 Xland at the aerodrome. + a% ~8 K/ b3 U& p. mAPPROACH SPEED- The recommended speed contained in aircraft manuals used by pilots when : ^- [/ H6 [3 @5 r5 @% B4 N3 |3 |. vmaking an approach to landing. This speed will vary for different segments of an approach as well as for # m+ O( u. o# d8 \; laircraft weight and configuration. APPROPRIATE ATS AUTHORITY [ICAO]- The : n$ c3 l' {/ _. prelevant authority designated by the State responsible % ~0 T5 N/ c# c0 Wfor providing air traffic services in the airspace concerned. In the United States, the “appropriate ATS authority” is the Program Director for Air Traffic Planning and Procedures, ATP‐1. 6 U, u: h/ @, I/ N' HAPPROPRIATE AUTHORITYa. Regarding flight over the high seas: the relevant + i! `0 Z# ^0 ]* U: vauthority is the State of Registry. b. Regarding flight over other than the high seas: 3 Z3 I& B5 i% B+ x6 b4 Jthe relevant authority is the State having sovereignty over the territory being overflown. APPROPRIATE OBSTACLE CLEARANCE MINIMUM ALTITUDE- Any of the following: # G _+ |0 t3 f$ s+ c(See MINIMUM EN ROUTE IFR ALTITUDE.) (See MINIMUM IFR ALTITUDE.) (See MINIMUM OBSTRUCTION CLEARANCE 4 c: d2 o* y* _2 pALTITUDE.) (See MINIMUM VECTORING ALTITUDE.) APPROPRIATE TERRAIN CLEARANCE ' k* @8 j" g5 i; G7 qMINIMUM ALTITUDE- Any of the following: (See MINIMUM EN ROUTE IFR ALTITUDE.) % B/ i( E- K1 j* N) j(See MINIMUM IFR ALTITUDE.) (See MINIMUM OBSTRUCTION CLEARANCE ALTITUDE.) (See MINIMUM VECTORING ALTITUDE.) ! A5 t9 d1 p [) W4 L& R9 o$ N- uAPRON- A defined area on an airport or heliport intended to accommodate aircraft for purposes of loading or unloading passengers or cargo, refueling, parking, or maintenance. With regard to seaplanes, a ramp is used for access to the apron from the water. X% Q5 j+ s$ ^1 B. i: J(See ICAO term APRON.) . v2 B1 Z" }9 u7 x% f, n/ X- ZAPRON [IC AO]- A defined area, on a land aerodrome, intended to accommodate aircraft for purposes of loading or unloading passengers, mail or cargo, refueling, parking or maintenance. ARC- The track over the ground of an aircraft flying at a constant distance from a navigational aid by reference to distance measuring equipment (DME). 7/31/08 Pilot/Controller Glossary 2/14/08 1 S9 |1 m& g( g7 g* u+ l. O, GPCG A-12 AREA CONTROL CENTER [ICAO]- An air traffic ; C7 Z5 X( X3 g& jcontrol facility primarily responsible for ATC services being provided IFR aircraft during the en 9 Q# q; o/ E; J6 lroute phase of flight. The U.S. equivalent facility is 2 N" ]( E7 ^) q5 o- A4 \3 o% n3 w( ?1 c. zan air route traffic control center (ARTCC). . q, Y: Y b3 R& \2 `2 u( t! L1 [* N7 k( bAREA NAVIGATION- Area Navigation (RNAV) . d* \+ ]3 E3 a/ \9 Oprovides enhanced navigational capability to the * G( ^' Y& X" b9 cpilot. RNAV equipment can compute the airplane position, actual track and ground speed and then provide meaningful information relative to a route of flight selected by the pilot. Typical equipment will ! s+ [2 @/ i8 x: j8 ]! @; g2 A8 Eprovide the pilot with distance, time, bearing and crosstrack error relative to the selected “TO” or “active” waypoint and the selected route. Several , e, I$ q' g( H* Sdistinctly different navigational systems with + h4 v9 X( ^" n: A3 ^* o" Ydifferent navigational performance characteristics 1 ^! ?; f4 u3 D! V# hare capable of providing area navigational functions. 1 F1 L+ a W6 A8 ~: g o- A% @Present day RNAV includes INS, LORAN, VOR/ 9 D/ @; E/ }* z C3 UDME, and GPS systems. Modern multi‐sensor systems can integrate one or more of the above 9 n7 x: S5 e# Z' L4 ~( q! o( |systems to provide a more accurate and reliable navigational system. Due to the different levels of 8 V/ Y- a) o1 _& Iperformance, area navigational capabilities can ( k" q" K3 e g! ]2 T/ r8 _/ [satisfy different levels of required navigational : ]/ I3 |5 G4 y. rperformance (RNP). The major types of equipment 4 c& H) H4 o) J( }are: + x5 F; H4 A- V; x c. h" \a. VORTAC referenced or Course Line Computer 3 Y9 R3 N% {. X(CLC) systems, which account for the greatest 9 m! [" r4 a$ k/ p8 ~; Bnumber of RNAV units in use. To function, the CLC ' O7 }8 U( x x* zmust be within the service range of a VORTAC. 8 O$ }& }7 Y- m4 N. O7 H2 eb. OMEGA/VLF, although two separate systems, can be considered as one operationally. A long‐range q7 U9 A6 h* C8 _" pnavigation system based upon Very Low Frequency ' _) r1 t7 p1 @' Qradio signals transmitted from a total of 17 stations , V6 L8 p$ z# j: y0 Sworldwide. c. Inertial (INS) systems, which are totally self‐contained and require no information from external references. They provide aircraft position 8 v$ c2 a* K! T$ j% G M: @ Mand navigation information in response to signals resulting from inertial effects on components within the system. % D! J- J5 G! T0 ~ }2 S( Nd. MLS Area Navigation (MLS/RNAV), which provides area navigation with reference to an MLS . B8 y6 k0 k! l9 rground facility. ( t8 i$ ]& d: J: N% ^ Ie. LORAN‐C is a long‐range radio navigation system that uses ground waves transmitted at low . v! j4 P, \4 c) hfrequency to provide user position information at ranges of up to 600 to 1,200 nautical miles at both en l, N/ z5 `9 T9 Kroute and approach altitudes. The usable signal coverage areas are determined by the signal‐to‐noise ratio, the envelope‐to‐cycle difference, and the ( ~9 x; x& r. d! R1 Y! J' Ageometric relationship between the positions of the user and the transmitting stations. f. GPS is a space‐base radio positioning, navigation, and time‐transfer system. The system - h! j9 u }. ^/ C' `provides highly accurate position and velocity $ l; K/ |0 G7 V' H6 K# J0 Cinformation, and precise time, on a continuous global 3 L: B3 c/ a" z& }/ i! dbasis, to an unlimited number of properly equipped ' K5 g( N {5 z) H/ wusers. The system is unaffected by weather, and $ ?# z/ x. n& U" b2 L2 I" Yprovides a worldwide common grid reference system. (See ICAO term AREA NAVIGATION.) ( A7 H+ g( m9 P4 {AREA NAVIGATION [IC AO]- A method of navigation which permits aircraft operation on any 0 n; y) y9 R. x6 q. @' \$ H; zdesired flight path within the coverage of station‐ referenced navigation aids or within the limits of the capability of self‐contained aids, or a combination of * L, f! ~- Y# E' Z9 w9 g/ ythese. AREA NAVIGATION (RNAV) APPROACH 0 x" j+ u2 V+ j, [CONFIGURATION: : O, ^/ u- _+ u# B$ q3 h, o+ y7 {a. STANDARD T- An RNAV approach whose design allows direct flight to any one of three initial approach fixes (IAF) and eliminates the need for , Y1 y/ [: F! ?0 I2 {7 iprocedure turns. The standard design is to align the procedure on the extended centerline with the missed 7 t. D4 W0 _4 C! zapproach point (MAP) at the runway threshold, the * V* p4 o z" S3 Sfinal approach fix (FAF), and the initial approach/ 6 S8 p5 Z3 V, g5 \intermediate fix (IAF/IF). The other two IAFs will be established perpendicular to the IF. . ^7 Y/ j* X; T& q# F" L4 Zb. MODIFIED T- An RNAV approach design for single or multiple runways where terrain or / @! K7 w- {! a1 e1 L& V' k; ^operational constraints do not allow for the standard & j: m/ X4 n8 ?1 }! ^0 TT. The “T” may be modified by increasing or decreasing the angle from the corner IAF(s) to the IF & Y# o% V, R2 ?% D ^$ j: Bor by eliminating one or both corner IAFs. c. STANDARD I- An RNAV approach design for a single runway with both corner IAFs eliminated. / t( Y# r4 E4 S: C% p+ nCourse reversal or radar vectoring may be required at busy terminals with multiple runways. d. TERMINAL ARRIVAL AREA (TAA)- The % D! V/ k% ~1 i/ C* ^( FTAA is controlled airspace established in conjunction ( R; N# q4 e% W4 ^/ Rwith the Standard or Modified T and I RNAV approach configurations. In the standard TAA, there are three areas: straight‐in, left base, and right base. 4 s! y8 Q+ s0 Z6 K( ]5 w' WThe arc boundaries of the three areas of the TAA are published portions of the approach and allow aircraft to transition from the en route structure direct to the nearest IAF. TAAs will also eliminate or reduce Pilot/Controller Glossary 7/31/08 . T# C; Z) R2 s: x sPilot/Controller Glossary 2/14/08 PCG A-13 7 c# l. s" E; |2 qfeeder routes, departure extensions, and procedure turns or course reversal. . B; ^: i/ g- E- m: g* F* o1. STRAIGHT‐IN AREA- A 30NM arc centered on the IF bounded by a straight line extending through the IF perpendicular to the 5 s/ F3 }: G' `8 |+ ointermediate course. 2. LEFT BASE AREA- A 30NM arc centered , S3 N P2 N: h6 ~+ q6 mon the right corner IAF. The area shares a boundary with the straight‐in area except that it extends out for 30NM from the IAF and is bounded on the other side ; b8 v0 p! T& v% |, wby a line extending from the IF through the FAF to the arc. ( V8 t1 M% Z4 b! D7 B3. RIGHT BASE AREA- A 30NM arc centered 7 g0 f* ~2 h6 F5 von the left corner IAF. The area shares a boundary 9 [- Y! @7 J8 Y& twith the straight‐in area except that it extends out for . i6 S. m/ [9 p7 z0 i: I4 K& w30NM from the IAF and is bounded on the other side 8 ]& x3 ^ Y8 q2 w% eby a line extending from the IF through the FAF to the " E9 d" _! D1 W8 v0 Zarc. 7 L- W5 m+ A' [/ rARINC- An acronym for Aeronautical Radio, Inc., a corporation largely owned by a group of airlines. ARINC is licensed by the FCC as an aeronautical station and contracted by the FAA to provide # X3 c' W8 }; A" |! ~; ~2 v( rcommunications support for air traffic control and * L. I& }1 `& W( x4 g+ o. Rmeteorological services in portions of international 7 z4 ]" R2 B3 z: S8 yairspace. * t3 ^+ U( L! u3 l9 ]; n6 nARMY AVIATION FLIGHT INFORMATION BULLETIN- A bulletin that provides air operation data covering Army, National Guard, and Army Reserve aviation activities. # J* [. K8 [; U, {2 K* g0 [ARO(See AIRPORT RESERVATION OFFICE.) ARRESTING SYSTEM- A safety device consisting 3 j8 l+ k1 R6 H( m0 }; Oof two major components, namely, engaging or catching devices and energy absorption devices for $ }+ m& e$ w) I2 e' Z$ W7 P, y5 R- ethe purpose of arresting both tailhook and/or nontailhook‐equipped aircraft. It is used to prevent aircraft from overrunning runways when the aircraft $ l. K; y- ?* H ?cannot be stopped after landing or during aborted 3 |+ Q2 v) R6 u) ]takeoff. Arresting systems have various names; e.g., arresting gear, hook device, wire barrier cable. + }, f! V, F) ^1 f% n! l! Q; L# D6 @$ C(See ABORT.) 4 x' \; X8 G: [# j6 Q7 ?(Refer to AIM.)

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ARRIVAL AIRCRAFT INTERVAL- An internally " [! ^( M; M" Q1 ngenerated program in hundredths of minutes based upon the AAR. AAI is the desired optimum interval between successive arrival aircraft over the vertex. ARRIVAL CENTER- The ARTCC having jurisdic‐ 2 r( `3 }9 D* S' t3 G: ~; L" u# |tion for the impacted airport. ARRIVAL DELAY- A parameter which specifies a period of time in which no aircraft will be metered for arrival at the specified airport. ARRIVAL SECTOR- An operational control sector containing one or more meter fixes. % K+ H9 ~! Y! \& Q2 TARRIVAL SECTOR ADVIS ORY LIS T- An ' d0 c8 s5 N* M' H& {ordered list of data on arrivals displayed at the & U, G6 U5 k$ M% S, LPVD/MDM of the sector which controls the meter fix. ARRIVAL SEQUENCING PROGRAM- The auto‐ - D- B u& v& r5 P. Q0 ~7 C1 `" ]mated program designed to assist in sequencing aircraft destined for the same airport. + `3 s; C1 n7 g P; `( GARRIVAL TIME- The time an aircraft touches down ; u5 @! u" |3 {0 Z0 v9 yon arrival. ARSR(See AIR ROUTE SURVEILLANCE RADAR.) 7 v& C& f4 p( N$ [, RARTCC(See AIR ROUTE TRAFFIC CONTROL - X1 ^$ X% `- p* yCENTER.) ARTS(See AUTOMATED RADAR TERMINAL 1 w: I0 H4 i b& m8 LSYSTEMS.) * h J5 G+ [/ Q3 C2 Y0 X6 hASDA(See ACCELERATE‐STOP DISTANCE 7 ]: x6 |" z1 B3 U& {/ d0 ]AVAILABLE.) ASDA [ICAO]- * r4 ~ L7 v$ K1 r0 ]$ }& u(See ICAO Term ACCELERATE‐STOP DISTANCE AVAILABLE.) ASDE(See AIRPORT SURFACE DETECTION EQUIPMENT.) * g$ Y: B: r8 T8 D: tASF(See AIRPORT STREAM FILTER.) ASLAR(See AIRCRAFT SURGE LAUNCH AND RECOVERY.) ASP(See ARRIVAL SEQUENCING PROGRAM.) ASR(See AIRPORT SURVEILLANCE RADAR.) ASR APPROACH(See SURVEILLANCE APPROACH.) - l, k4 d6 b6 u5 m1 Q' ~2 u7/31/08 Pilot/Controller Glossary 0 K2 S4 K# ^6 V$ u- A5 K0 V/ x, W2/14/08 PCG A-14 4 T' p y/ |* i( F3 \, I% n' t& ~ASSOCIATED- A radar target displaying a data 3 b# X- o4 b1 O7 S% q6 tblock with flight identification and altitude & D/ Y- h. m* Vinformation. (See UNASSOCIATED.) 3 p: B9 ^9 l" l4 D+ @ATC(See AIR TRAFFIC CONTROL.) ( o$ N1 m3 T4 A C! y1 r' nATC ADVISES- Used to prefix a message of noncontrol information when it is relayed to an aircraft by other than an air traffic controller. (See ADVISORY.) 5 C0 v/ R& O7 b8 S% E) n& C3 v! P! wATC ASSIGNED AIRSPACE- Airspace of defined vertical/lateral limits, assigned by ATC, for the purpose of providing air traffic segregation between the specified activities being conducted within the 7 `8 O1 g0 S- @/ H/ Xassigned airspace and other IFR air traffic. - k8 L4 f( j- b! v(See SPECIAL USE AIRSPACE.) ATC CLEARANCE(See AIR TRAFFIC CLEARANCE.) ATC CLEARS- Used to prefix an ATC clearance when it is relayed to an aircraft by other than an air : A: }" q j- u* w: Y3 w x; Ytraffic controller. 2 t, k! q4 s; `: ]9 f" T( [/ ]; GATC INSTRUCTIONS- Directives issued by air traffic control for the purpose of requiring a pilot to ) P- m) M4 C l' C) m& f Ftake specific actions; e.g., “Turn left heading two five zero,” “Go around,” “Clear the runway.” (Refer to 14 CFR Part 91.) ATC PREFERRED ROUTE NOTIFICATION- URET notification to the appropriate controller of the need to determine if an ATC preferred route needs to be applied, based on destination airport. (See ROUTE ACTION NOTIFICATION.) (See USER REQUEST EVALUATION TOOL.) 2 Q" |/ a X1 q# x9 N0 yATC PREFERRED ROUTES- Preferred routes that 9 ^$ T; W1 t5 A. n/ {& C. ware not automatically applied by Host. , D4 |5 v) i0 Y& FATC REQUESTS- Used to prefix an ATC request # V; C# w+ B* d2 ^4 {when it is relayed to an aircraft by other than an air traffic controller. / i- i- j1 w+ eATCAA(See ATC ASSIGNED AIRSPACE.) : v% I! Q5 y4 q0 B; B& m4 z+ {ATCRBS(See RADAR.) % `6 A, E% _9 F$ i. |" w. I" l% IATCSCC(See AIR TRAFFIC CONTROL SYSTEM ; @9 m q3 X1 }% b0 MCOMMAND CENTER.) 4 C' {# f" U2 Z( u# w' |ATCT(See TOWER.) ATD(See ALONG-TRACK DISTANCE.) ATIS(See AUTOMATIC TERMINAL INFORMATION ! [3 p1 G5 [& `7 ?SERVICE.) ATIS [ICAO]- (See ICAO Term AUTOMATIC TERMINAL INFORMATION SERVICE.) ATS ROUTE [ICAO]- A specified route designed for channelling the flow of traffic as necessary for the provision of air traffic services. $ r( A" V* I; J. ]( P7 u$ wNote:The term “ATS Route” is used to mean vari‐ * N) T% U% r1 Y$ u8 Nously, airway, advisory route, controlled or 9 f4 L: ^6 |+ n# n8 h- \uncontrolled route, arrival or departure, etc. AUTOLAND APPROACH- An autoland approach 0 `" B* o! b( K' ]) G) n* C |is a precision instrument approach to touchdown and, in some cases, through the landing rollout. An autoland approach is performed by the aircraft ( x& J7 |/ G4 i0 H& L3 T5 N9 d8 J4 Jautopilot which is receiving position information ! h1 `5 n9 r' ^" B! ], wand/or steering commands from onboard navigation * l! w" K# ^1 {3 D# Gequipment. Note:Autoland and coupled approaches are flown in VFR and IFR. It is common for carriers to require 2 J7 {. R3 ^1 E! C% |- \& }' h& \$ \their crews to fly coupled approaches and autoland approaches (if certified) when the weather condi‐ tions are less than approximately 4,000 RVR. (See COUPLED APPROACH.) AUTOMATED INFORMATION TRANSFER- A precoordinated process, specifically defined in - Y+ r- b, |/ rfacility directives, during which a transfer of altitude 1 @. A0 W4 Z( \control and/or radar identification is accomplished without verbal coordination between controllers using information communicated in a full data block. AUTOMATED MUTUAL‐ASSISTANCE VESSEL RESCUE SYSTEM- A facility which can deliver, in & n' l0 B1 R% {; ia matter of minutes, a surface picture (SURPIC) of . \ T' T" P" M8 r- o3 R" |; Gvessels in the area of a potential or actual search and # n0 C" y3 R5 D6 brescue incident, including their predicted positions / Q( G6 y- M* ~3 M$ `$ Rand their characteristics. . R- E9 m- b9 C7 n9 z O& x(See FAAO JO 7110.65, Para 10-6-4, INFLIGHT $ l# ?5 n! e* _CONTINGENCIES.) AUTOMATED PROBLEM DETECTION (APD)- An Automation Processing capability that compares trajectories in order to predict conflicts. Pilot/Controller Glossary 7/31/08 9 W+ }+ j+ j0 e e+ k4 A+ T& oPilot/Controller Glossary 2/14/08 # f1 [% K w2 E3 L8 a& `9 |PCG A-15 AUTOMATED PROBLEM DETECTION 6 |4 o1 A, G3 ^BOUNDARY (APB)- The adapted distance beyond a facilities boundary defining the airspace within % w8 F: N0 C# r# X' K! G5 ^. ^( wwhich URET performs conflict detection. 2 m$ @& I @' }+ t- z(See USER REQUEST EVALUATION TOOL.) & y) x5 e& ~" f& @AUTOMATED PROBLEM DETECTION IN‐ : Y- K1 P- d" kHIBITED AREA (APDIA)- Airspace surrounding a - U/ C7 N$ p2 ]: O* P2 ~% ?terminal area within which APD is inhibited for all 9 b: U8 R8 r- j ?7 Pflights within that airspace. 2 S# @' N9 _# _AUTOMATED RADAR TERMINAL SYSTEMS ! Q% ^# J) J; _- y# t! P& \6 _(ARTS)- A generic term for several tracking systems 4 g5 B1 Z. C' w6 H( _* mincluded in the Terminal Automation Systems (TAS). ! n1 z1 k- h1 M" d/ i, y1 F: h4 lARTS plus a suffix roman numeral denotes a major % l& S& z% O7 K$ d% O q6 Jmodification to that system. ( v/ e' X8 l9 v7 O$ M3 F v! Ja. ARTS IIIA. The Radar Tracking and Beacon 9 l+ ~3 V0 h* x8 P- [: H- v5 lTracking Level (RT&BTL) of the modular, - R9 ]( M/ d6 a: f; J# [programmable automated radar terminal system. 0 g+ O% n( m- _. mARTS IIIA detects, tracks, and predicts primary as well as secondary radar‐derived aircraft targets. This more sophisticated computer‐driven system up‐ . x4 t8 d' M9 x1 V2 Q1 G& O w' ?grades the existing ARTS III system by providing 1 t$ f. m4 T& f, H$ w( cimproved tracking, continuous data recording, and fail‐soft capabilities. b. Common ARTS. Includes ARTS IIE, ARTS IIIE; and ARTS IIIE with ACD (see DTAS) which combines functionalities of the previous ARTS , l" V, X8 r# Msystems. 5 Y- @/ Q( n+ U+ @! yc. rogram mable Indicator Data Processor & U& ~( h: s) x% s. D(P IDP). The PIDP is a modification to the AN/TPX-42 interrogator system currently installed % G. D5 q4 {: \in fixed RAPCONs. The PIDP detects, tracks, and predicts secondary radar aircraft targets. These are displayed by means of computer-generated symbols 0 p' ~* Q/ b& y0 Rand alphanumeric characters depicting flight identifi‐ cation, aircraft altitude, ground speed, and flight plan , r: Y+ d) v+ w$ k* r4 m0 q( Vdata. Although primary radar targets are not tracked, + w4 i- m' U. X7 o- T0 n3 _they are displayed coincident with the secondary radar targets as well as with the other symbols and alphanumerics. The system has the capability of 4 H- h5 h; ]* ?: o m3 ]interfacing with ARTCCs. AUTOMATED WEATHER SYSTEM- Any of the automated weather sensor platforms that collect + P* e8 q% C% |0 A/ G, wweather data at airports and disseminate the weather 1 T1 Z( |% L) a/ Y/ L4 y" T! y9 }& winformation via radio and/or landline. The systems currently consist of the Automated Surface Observ‐ ing System (ASOS), Automated Weather Sensor System (AWSS) and Automated Weather Observa‐ / J3 T2 m u: e; ^) v8 L8 L1 Ttion System (AWOS). AUTOMATED UNICOM- Provides completely ) H) d4 {4 q9 Z6 t# \6 D, Fautomated weather, radio check capability and airport ; o3 A% U4 h% c2 X. Qadvisory information on an Automated UNICOM system. These systems offer a variety of features, . n: e2 h+ A* v9 Gtypically selectable by microphone clicks, on the 7 h* U- n3 z1 W0 m1 q# O, s* w6 d8 ?UNICOM frequency. Availability will be published . D, `2 ^ p0 Uin the Airport/Facility Directory and approach charts. ( R/ Q" v* c0 L5 gAUTOMATIC ALTITUDE REPORT(See ALTITUDE READOUT.) 8 I6 G! i8 Y8 `4 _( QAUTOMATIC ALTITUDE REPORTING- That ' K& }; U8 O/ A4 r# J! r1 ~3 ffunction of a transponder which responds to Mode C d+ i$ `; W3 u) f8 Zinterrogations by transmitting the aircraft's altitude 4 J6 F& B- b+ ?) w+ J* e8 d% z2 kin 100‐foot increments. 6 L8 A3 o/ w( S: HAUTOMATIC CARRIER LANDING SYSTEM- ; {) B! r; H% I' q2 b5 x6 Z8 nU.S. Navy final approach equipment consisting of precision tracking radar coupled to a computer data link to provide continuous information to the aircraft, monitoring capability to the pilot, and a backup approach system. AUTOMATIC DEPENDENT SURVEILLANCE / R: W. Z' q) `. y# H. t(ADS) [ICAO]- A surveillance technique in which ( q. v! U! h9 U. i. |6 vaircraft automatically provide, via a data link, data & O' Q) w) @% i2 A; X, T9 O4 f- Kderived from on-board navigation and position fixing systems, including aircraft identification, four dimensional position and additional data as appropriate. 4 o+ g3 F5 y4 v, Z5 s! \AUTOMATIC DEPENDENT SURVEILLANCE- BROADCAST (ADS‐B)- A surveillance system in " q; W" B* }9 e! Q6 v7 t& {which an aircraft or vehicle to be detected is fitted with cooperative equipment in the form of a data link , G$ N% u: H4 @& P8 k, m- W2 c4 F8 otransmitter. The aircraft or vehicle periodically 4 e; E* y; d8 W* u0 v, h P0 Wbroadcasts its GPS-derived position and other 5 r6 Q- j7 @" R) u# p" U6 _information such as velocity over the data link, which ' |# D' K/ W3 {1 Z! lis received by a ground-based transmitter/receiver (transceiver) for processing and display at an air traffic control facility. (See GLOBAL POSITIONING SYSTEM.) (See GROUND-BASED TRANSCEIVER.) $ o5 `/ p& x; H5 S' c3 uAUTOMATIC DEPENDENT SURVEILLANCE- CONTRACT (ADS-C)- A data link position + D% k# f- H$ l/ Lreporting system, controlled by a ground station, that 5 D5 G; }1 c/ gestablishes contracts with an aircraft's avionics that 3 v, j1 x5 A; T* B( Soccur automatically whenever specific events occur, ; G7 ], \: F7 e7 i+ o0 Vor specific time intervals are reached. . l2 U; M7 V, j+ v& g- mAUTOMATIC DIRECTION FINDER- An aircraft " L$ i, O- m! E% g2 Lradio navigation system which senses and indicates " S- R- _9 a; }the direction to a L/MF nondirectional radio beacon (NDB) ground transmitter. Direction is indicated to 7/31/08 Pilot/Controller Glossary 8 D; f' X/ c4 f7 O2/14/08 PCG A-16 : g5 t1 a! @/ p0 c; [the pilot as a magnetic bearing or as a relative bearing & N4 m4 G( k/ V' M( ]. Dto the longitudinal axis of the aircraft depending on $ N. a+ Y. t9 P1 k6 Bthe type of indicator installed in the aircraft. In certain applications, such as military, ADF operations may be based on airborne and ground transmitters in the VHF/UHF frequency spectrum. 0 l; M6 ?8 U# U6 z5 h A2 k8 c(See BEARING.) + _8 S% }# r# ]- g: K(See NONDIRECTIONAL BEACON.) AUTOMATIC FLIGHT INFORMATION 5 { N4 i. Z! z* r, f' CSERVICE (AFIS) - ALASKA FSSs ONLY- The continuous broadcast of recorded non-control 4 V$ Q/ p6 j" ]5 A- Qinformation at airports in Alaska where a FSS provides local airport advisory service. The AFIS " A) K9 E" ~* }+ r$ j5 sbroadcast automates the repetitive transmission of , s! I) h1 l0 U0 jessential but routine information such as weather, " `; @! |& k$ l. G$ x9 hwind, altimeter, favored runway, breaking action, airport NOTAMs, and other applicable information. $ Q; |3 Q; C, W4 [The information is continuously broadcast over a discrete VHF radio frequency (usually the ASOS frequency.) AUTOMATIC TERMINAL INFORMATION ! S ]# z* D |8 K2 nSERVICE- The continuous broadcast of recorded 7 h0 ?/ x; ^1 e) l; xnoncontrol information in selected terminal areas. Its 3 l8 L9 d0 U) l- Y& gpurpose is to improve controller effectiveness and to : |" C7 a8 G' D0 ?/ z0 x; srelieve frequency congestion by automating the repetitive transmission of essential but routine information; e.g., “Los Angeles information Alfa. ' w) Y @* f' gOne three zero zero Coordinated Universal Time. Weather, measured ceiling two thousand overcast, visibility three, haze, smoke, temperature seven one, dew point five seven, wind two five zero at five, altimeter two niner niner six. I‐L‐S Runway Two Five " [6 s- N; P8 p$ v G1 nLeft approach in use, Runway Two Five Right closed, 5 h# ^1 V0 c, [, r% S$ L0 ?advise you have Alfa.” (See ICAO term AUTOMATIC TERMINAL ) `2 h' t7 [6 _0 Z$ UINFORMATION SERVICE.) (Refer to AIM.) 6 X; C) `, C4 l( g5 O; C- Y4 K2 hAUTOMATIC TERMINAL INFORMATION - d% f1 O, U* P! n7 O" [SERVICE [ICAO]- The provision of current, routine ; t1 e9 L1 l& E/ u/ @' Kinformation to arriving and departing aircraft by ( W4 V! o! H8 t& ~2 ?3 I! a# N+ jmeans of continuous and repetitive broadcasts 8 k5 Q0 b, I0 w7 fthroughout the day or a specified portion of the day. + g+ z! o! E% l) LAUTOROTATION- A rotorcraft flight condition in which the lifting rotor is driven entirely by action of the air when the rotorcraft is in motion. # ^1 H* d( X8 F% P+ U/ ea. Autorotative Landing/Touchdown Autorota‐ ) A- a5 [1 j6 Otion. Used by a pilot to indicate that the landing will : {5 U! X' k: t) M1 t$ R6 obe made without applying power to the rotor. b. Low Level Autorotation. Commences at an altitude well below the traffic pattern, usually below 100 feet AGL and is used primarily for tactical 4 S' I" ~* _/ v6 smilitary training. F" ?' j! t5 }1 q( F: @& `- V4 ^c. 180 degrees Autorotation. Initiated from a downwind heading and is commenced well inside the # {) g5 \! x8 a6 |, {# P# J. P8 Y) znormal traffic pattern. “Go around” may not be 2 e! I; X8 q2 k7 Qpossible during the latter part of this maneuver. / n7 Q2 N2 p* G# a$ ^AVAILABLE LANDING DISTANCE (ALD)- The portion of a runway available for landing and roll‐out A! d1 _! [. s8 b: m/ |for aircraft cleared for LAHSO. This distance is measured from the landing threshold to the 0 U7 C' D ~- J( B4 X5 ehold‐short point. AVIATION WEATHER SERVIC E- A service ( m2 } m9 v1 p1 f+ Uprovided by the National Weather Service (NWS) and FAA which collects and disseminates pertinent weather information for pilots, aircraft operators, and ATC. Available aviation weather reports and 5 ]- ~1 S3 u& J. w! Y8 Eforecasts are displayed at each NWS office and FAA & V' }8 V9 B0 V! y+ N1 }FSS. (See EN ROUTE FLIGHT ADVISORY SERVICE.) (See TRANSCRIBED WEATHER BROADCAST.) , n7 ~8 G O' j$ _2 d% Q(See WEATHER ADVISORY.) 1 |' m+ y- B3 `8 j2 c(Refer to AIM.)

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AWW(See SEVERE WEATHER FORECAST ALERTS.) AZIMUTH (MLS)- A magnetic bearing extending from an MLS navigation facility. Note:Azimuth bearings are described as magnetic and are referred to as “azimuth” in radio telephone communications. ; e+ b2 P% g o7 \( b( jPilot/Controller Glossary 7/31/08 Pilot/Controller Glossary 2/14/08 7 Y/ y- l; g* gPCG B-1 6 ]$ _8 v: C# N6 C) XB BACK‐TAXI- A term used by air traffic controllers to taxi an aircraft on the runway opposite to the traffic flow. The aircraft may be instructed to back‐taxi to $ R5 T) y7 i) x7 k6 ]9 {" T# ]the beginning of the runway or at some point before 1 i2 a5 `3 Z" P( I: h6 B9 W" W7 qreaching the runway end for the purpose of departure % a; `9 \# K) ?4 ^4 Ror to exit the runway. BASE LEG(See TRAFFIC PATTERN.) BEACON(See AERONAUTICAL BEACON.) 7 X2 @( M3 H2 J) j(See AIRPORT ROTATING BEACON.) ) M$ B8 w* T2 {% W" b2 N$ j7 R(See AIRWAY BEACON.) (See MARKER BEACON.) (See NONDIRECTIONAL BEACON.) 0 o- `: F o3 |! K5 p) f- R: j4 ~! u n) ^(See RADAR.) BEARING- The horizontal direction to or from any point, usually measured clockwise from true north, / A3 f) V& Y7 C% mmagnetic north, or some other reference point ! ?, v: e# s/ T1 Hthrough 360 degrees. # }1 W8 x& e* ~3 k+ _1 w4 Z; v(See NONDIRECTIONAL BEACON.) : h3 \( i+ P, W8 I! ]# h5 f6 hBELOW MINIMUMS- Weather conditions below the minimums prescribed by regulation for the 9 q; z1 S4 J7 M4 f1 D; q# Dparticular action involved; e.g., landing minimums, ! M# E9 u9 } h T( ktakeoff minimums. BLAST FENCE- A barrier that is used to divert or dissipate jet or propeller blast. BLIND SPEED- The rate of departure or closing of a target relative to the radar antenna at which - C/ k$ S5 j2 k* @) v" tcancellation of the primary radar target by moving target indicator (MTI) circuits in the radar equipment causes a reduction or complete loss of signal. 0 E6 R" v& Q: ~. W/ i/ W(See ICAO term BLIND VELOCITY.) BLIND SPOT- An area from which radio ) c3 M& W# a; r0 r! N( L2 e2 j7 ktransmissions and/or radar echoes cannot be received. The term is also used to describe portions of the airport not visible from the control tower. . H7 o; V4 }* bBLIND TRANSMISSION(See TRANSMITTING IN THE BLIND.) * J( o2 ?- \2 ?/ X9 dBLIND VELOCITY [ICAO]- The radial velocity of a moving target such that the target is not seen on primary radars fitted with certain forms of fixed echo & O f6 ^4 y1 W) a1 q0 Dsuppression. 1 H, c" v; M( x- L5 C; _BLIND ZONE(See BLIND SPOT.) BLOCKED- Phraseology used to indicate that a ! L5 _# t$ Z5 C. j9 _1 Jradio transmission has been distorted or interrupted . k- p! [3 p9 [; H# } `2 cdue to multiple simultaneous radio transmissions. 4 b; W) w w3 l/ H5 v( U1 lBOUNDARY LIGHTS(See AIRPORT LIGHTING.) BRAKING ACTION (GOOD, FAIR, POOR, OR # X( y; P; y8 k$ x8 @" ONIL)- A report of conditions on the airport ( E, \* m- D- ?1 a4 L( umovement area providing a pilot with a degree/ quality of braking that he/she might expect. Braking - s5 w$ k( R! g9 b1 w" F/ j! k! @6 Haction is reported in terms of good, fair, poor, or nil. : o, z0 g9 x4 I$ E7 d( P(See RUNWAY CONDITION READING.) BRAKING ACTION ADVISORIES- When tower 5 {( A# W: `7 P9 [( t+ jcontrollers have received runway braking action 5 A1 B8 l' V( ~1 |reports which include the terms “poor” or “nil,” or 8 ^8 b1 K* k1 j7 i A9 rwhenever weather conditions are conducive to deteriorating or rapidly changing runway braking 4 C7 P* g- C! V1 E; Q( Kconditions, the tower will include on the ATIS ( p; A+ Z( m: M' }* @+ pbroadcast the statement, “BRAKING ACTION % ~: R0 L) x7 JADVISORIES ARE IN EFFECT.” During the time Braking Action Advisories are in effect, ATC will issue the latest braking action report for the runway E* {8 x) y+ M. e% Oin use to each arriving and departing aircraft. Pilots should be prepared for deteriorating braking conditions and should request current runway condition inform ation if not volunteered by controllers. Pilots should also be prepared to provide a descriptive runway condition report to controllers 5 c' t' v H0 qafter landing. " u6 O; U, a3 _$ H! EBREAKOUT- A technique to direct aircraft out of the approach stream. In the context of close parallel operations, a breakout is used to direct threatened aircraft away from a deviating aircraft. BROADCAST- Transmission of information for 9 ^; b2 _+ [% k" `which an acknowledgement is not expected. - s5 K& P7 d1 Z9 s: c(See ICAO term BROADCAST.) 2 u7 O% }$ ]/ _% F" p+ aBROADCAST [ICAO]- A transmission of informa‐ tion relating to air navigation that is not addressed to 1 U& ]0 k% G6 |+ x1 E% v8 ^8 ka specific station or stations. 4 g4 R9 h( p! L* [" lPilot/Controller Glossary 2/14/08 PCG C-1 C . {1 m4 x; b3 ~: |CALCULATED LANDING TIME- A term that may . w* m' W8 b; i- O Pbe used in place of tentative or actual calculated % U$ E( j3 Z4 o. s ^( P( p- |9 C {landing time, whichever applies. ' }; z# x2 h9 |" K1 k0 s+ lCALL FOR RELEASE- Wherein the overlying $ } h: v+ c2 ~' a0 `ARTCC requires a terminal facility to initiate verbal & [1 ]0 `! `* N0 x( m0 s( xcoordination to secure ARTCC approval for release 0 K7 T3 ]. j4 _of a departure into the en route environment. CALL UP- Initial voice contact between a facility 8 w' w& s# G9 `( ~, m8 |and an aircraft, using the identification of the unit * p. I+ \2 Y# |4 r5 Z- D( mbeing called and the unit initiating the call. (Refer to AIM.) CANADIAN MINIMUM NAVIGATION PERFOR‐ MANCE SPECIFICATION AIRSPACE- That portion of Canadian domestic airspace within which MNPS separation may be applied. CARDINAL ALTITUDES - “Odd” or “Even” thousand‐foot altitudes or flight levels; e.g., 5,000, 6,000, 7,000, FL 250, FL 260, FL 270. (See ALTITUDE.) (See FLIGHT LEVEL.) - O: _/ [0 ? _2 W; d: ^CARDINAL FLIGHT LEVELS(See CARDINAL ALTITUDES.) CAT(See CLEAR‐AIR TURBULENCE.) 7 Q/ u9 O% k! ACATCH POINT- A fix/waypoint that serves as a / w2 y, |( A- g9 ztransition point from the high altitude waypoint navigation structure to an arrival procedure (STAR) g1 {1 Y; L/ a. R7 sor the low altitude ground-based navigation ( Q% s1 J A5 v; ^3 @structure. CEILING- The heights above the earth's surface of % M% _$ K* _7 ^, C3 w2 K2 bthe lowest layer of clouds or obscuring phenomena that is reported as “broken, ” “overcast,” or “obscuration,” and not classified as “thin” or “partial.” (See ICAO term CEILING.) ; [- E; ~$ d, Z% y. C- ECEILING [ICAO]- The height above the ground or + C, y* B" Z. R& K( \water of the base of the lowest layer of cloud below 6,000 meters (20,000 feet) covering more than half * ~' f( b6 h+ A/ {the sky. . _& c# V8 M p" y5 E+ CCENRAP(See CENTER RADAR ARTS , ]1 F, ^# o* W( M0 F( d: jPRESENTATION/PROCESSING.) CENRAP‐PLUS(See CENTER RADAR ARTS PRESENTATION/PROCESSING‐PLUS.) CENTER(See AIR ROUTE TRAFFIC CONTROL / w; W" y5 Z7 ECENTER.) 8 B' N3 |8 R* A3 w# R/ g4 e: oCENTER'S AREA- The specified airspace within : x# m2 k/ g( p+ ] Z" Bwhich an air route traffic control center (ARTCC) provides air traffic control and advisory service. + M: Q W2 [9 C# }; J" k' c4 Y) z(See AIR ROUTE TRAFFIC CONTROL + z7 { {7 e1 pCENTER.) (Refer to AIM.) CENTER RADAR ARTS PRESENTATION/ 0 P% |1 u; _$ `& e1 Q$ G, _# aPROCESSING- A computer program developed to provide a back‐up system for airport surveillance 2 Y$ y% a, L4 i6 nradar in the event of a failure or malfunction. The r" W' T5 j/ D6 M# q' gprogram uses air route traffic control center radar for 1 l, {5 A3 _" p2 lthe processing and presentation of data on the ARTS . S1 ~/ z. k# Q1 u# _0 xIIA or IIIA displays. CENTER RADAR ARTS PRESENTATION/ PROCESSING‐PLUS- A computer program developed to provide a back‐up system for airport surveillance radar in the event of a terminal secondary % c2 k( k. G" m* zradar system failure. The program uses a combination of Air Route Traffic Control Center Radar and terminal airport surveillance radar primary targets # @( f8 o8 ]$ jdisplayed simultaneously for the processing and 1 Y- P4 |+ h+ |; V7 e: l' H8 D8 dpresentation of data on the ARTS IIA or IIIA ' z+ P2 X7 J( t& |2 vdisplays. ' U4 H/ |' `8 a5 a" ` CCENTER TRACON AUTOMATION SYSTEM % k+ {, O$ F5 {/ U# D6 Q(CTAS)- A computerized set of programs designed 6 g, O4 s0 O: o9 N! p) hto aid Air Route Traffic Control Centers and 8 p( C* m% o1 E" y) k4 }TRACONs in the management and control of air traffic. " ^, [8 |6 t, p/ ?, O& m8 c, ] KCENTER WEATHER ADVISORY- An unsched‐ - L4 t8 a( ~( ?- {( n5 b! guled weather advisory issued by Center Weather & |/ ^1 _. D( X* o% WService Unit meteorologists for ATC use to alert z! M s5 E, I V9 x9 R9 \pilots of existing or anticipated adverse weather conditions within the next 2 hours. A CWA may modify or redefine a SIGMET. (See AWW.) (See AIRMET.) (See CONVECTIVE SIGMET.) % n0 j' u# S. @(See SIGMET.) ; E: q! z' ?& x4 `- o(Refer to AIM.) 0 v% C) ]* b. vPilot/Controller Glossary 2/14/08 PCG C-2 CENTRAL EAST PACIFIC- An organized route system between the U.S. West Coast and Hawaii. CEP(See CENTRAL EAST PACIFIC.) CERAP(See COMBINED CENTER‐RAPCON.) CERTIFIED TOWER RADAR DISPLAY (CTRD)- ) m$ N+ [$ J7 e. ZA FAA radar display certified for use in the NAS. ; }' ]% r( B+ D! Z. uCFR(See CALL FOR RELEASE.) 5 M, [; v1 f$ Z. ?CHAFF- Thin, narrow metallic reflectors of various + `+ y: G: A/ l$ {- c* ilengths and frequency responses, used to reflect radar energy. These reflectors when dropped from aircraft and allowed to drift downward result in large targets 5 q- k5 L1 n7 w& ]7 m6 h0 Bon the radar display. CHARTED VFR FLYWAYS- Charted VFR Fly‐ ways are flight paths recommended for use to bypass & C( j- V8 l1 q. R9 {areas heavily traversed by large turbine‐powered aircraft. Pilot compliance with recommended 8 u0 b, b$ T) ^# Q: n+ A% D" |flyways and associated altitudes is strictly voluntary. VFR Flyway Planning charts are published on the back of existing VFR Terminal Area charts. CHARTED VISUAL FLIGHT PROCEDURE ) t5 [2 F4 K* s. f! T3 a: {APPROACH- An approach conducted while operating on an instrument flight rules (IFR) flight 1 Q0 s4 i H4 ~$ m2 G4 v+ J$ eplan which authorizes the pilot of an aircraft to * z& P8 d* D$ O" @- ?# \proceed visually and clear of clouds to the airport via 2 u. o6 E9 M4 X5 Jvisual landmarks and other information depicted on % X5 ~( z# p! D1 x0 Na charted visual flight procedure. This approach must be authorized and under the control of the appropriate air traffic control facility. Weather minimums required are depicted on the chart. CHASE- An aircraft flown in proximity to another ; F/ ]: l5 y3 @# I2 Gaircraft normally to observe its performance during ' c3 m- M; `$ v# e* {6 Ktraining or testing. CHASE AIRCRAFT(See CHASE.) $ [" h6 W+ q+ VCIRCLE‐TO‐LAND MANEUVER- A maneuver initiated by the pilot to align the aircraft with a runway for landing when a straight‐in landing from an instrument approach is not possible or is not " ]: Q. @( c" D) g' ]desirable. At tower controlled airports, this maneuver ; ?, ]: h) s9 x8 _' @- His made only after ATC authorization has been obtained and the pilot has established required visual reference to the airport. ( ~; n: [5 [$ D" E+ c A(See CIRCLE TO RUNWAY.) (See LANDING MINIMUMS.) 3 Q1 u- V: H4 F9 c; V1 ]) z(Refer to AIM.)

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CIRCLE TO RUNWAY (RUNWAY NUMBER)- " T/ T9 n* f: X6 l5 J# S7 GUsed by ATC to inform the pilot that he/she must circle to land because the runway in use is other than / F, j2 X; G" F5 ethe runway aligned with the instrument approach 2 x, v; z6 Q0 h; {8 Iprocedure. When the direction of the circling maneuver in relation to the airport/runway is required, the controller will state the direction (eight cardinal compass points) and specify a left or right + K1 P3 t9 `, a1 \2 Wdownwind or base leg as appropriate; e.g., “Cleared VOR Runway Three Six Approach circle to Runway 9 G% ?* ^2 f4 m2 u6 MTwo Two,” or “Circle northwest of the airport for a 5 e f7 z1 v, p% n& J, u) @right downwind to Runway Two Two.” ; \; ?* ]5 O8 e6 ^8 f, W9 n0 F/ i# S(See CIRCLE‐TO‐LAND MANEUVER.) (See LANDING MINIMUMS.) + A0 s4 r! Q0 O; S3 o# v. i(Refer to AIM.) 6 _. r+ m; l# t. FCIRCLING APPROACH(See CIRCLE‐TO‐LAND MANEUVER.) , k% x: h" f Z& f h0 gCIRCLING MANEUVER(See CIRCLE‐TO‐LAND MANEUVER.) CIRCLING MINIMA(See LANDING MINIMUMS.) : i8 H& M+ G3 S ~& c2 X6 k( t3 ~CLASS A AIRSPACE(See CONTROLLED AIRSPACE.) - y" e5 J8 A$ h* wCLASS B AIRSPACE(See CONTROLLED AIRSPACE.) * s9 H7 f: T) Z4 d0 D5 v0 a5 x/ WCLASS C AIRSPACE(See CONTROLLED AIRSPACE.) CLASS D AIRSPACE(See CONTROLLED AIRSPACE.) CLASS E AIRSPACE(See CONTROLLED AIRSPACE.) - R- u! p% E9 J' O" d$ P# kCLASS G AIRSPACE- That airspace not designated as Class A, B, C, D or E. CLEAR AIR TURBULENCE (CAT)- Turbulence " L* |/ D9 f0 N4 V. Nencountered in air where no clouds are present. This term is commonly applied to high‐level turbulence : b# S* N; h6 Rassociated with wind shear. CAT is often encountered in the vicinity of the jet stream. $ ?/ |, A$ X/ g* m5 n8 X(See WIND SHEAR.) (See JET STREAM.) " b4 [( E \4 g0 YCLEAR OF THE RUNWAYa. Taxiing aircraft, which is approaching a ; p$ k# L2 i" W/ P6 krunway, is clear of the runway when all parts of the Pilot/Controller Glossary 2/14/08 + N# V& z' A( BPCG C-3 + N4 n$ h0 u( y% K. Y& t) _aircraft are held short of the applicable runway holding position marking. 1 p% k5 s @0 b. H7 l7 V3 s; {* ~b. A pilot or controller may consider an aircraft, ' Q, P3 T7 S+ O9 wwhich is exiting or crossing a runway, to be clear of 1 E W) a! Z: sthe runway when all parts of the aircraft are beyond . V' t9 ^% o& z5 j/ P- I; athe runway edge and there are no restrictions to its continued movement beyond the applicable runway holding position marking. c. ilots and controllers shall exercise good judgement to ensure that adequate separation exists 3 W9 F7 M$ q1 ]- G5 Bbetween all aircraft on runways and taxiways at , R p7 T$ ?& v7 J: U" cairports with inadequate runway edge lines or ' o( M1 R; m% C, U4 M& e5 A( y) vholding position markings. * B6 L1 R1 C# LCLEARANCE(See AIR TRAFFIC CLEARANCE.) ; K6 |7 y& c7 U& @1 u. C# I9 j ~CLEARANCE LIMIT- The fix, point, or location to 5 d0 N! z. s5 D9 s: v" Hwhich an aircraft is cleared when issued an air traffic clearance. & R. c# l8 l5 O/ [(See ICAO term CLEARANCE LIMIT.) 5 X+ j7 \* A5 T( I A& u# W/ cCLEARANCE LIMIT [ICAO]- The point of which ; j; o3 X6 E; J [- Y v; ?0 ~0 van aircraft is granted an air traffic control clearance. 2 Y- p) U- }2 }" ?+ R5 q p' u7 ECLEARANCE VOID IF NOT OFF BY (TIME)- 2 t4 a+ u% m# I" M2 X% NUsed by ATC to advise an aircraft that the departure 9 v4 ~$ t9 H/ Rclearance is automatically canceled if takeoff is not made prior to a specified time. The pilot must obtain 2 p6 ]$ Q D' R/ |, i$ I& Q8 Fa new clearance or cancel his/her IFR flight plan if not 7 y' `# V: F/ x) g" _! p U* Voff by the specified time. 6 e K5 g- q- ?' U(See ICAO term CLEARANCE VOID TIME.) CLEARANCE VOID TIME [IC AO]- A time specified by an air traffic control unit at which a clearance ceases to be valid unless the aircraft % G8 I. l- {+ Z) t" k o5 Zconcerned has already taken action to comply therewith. CLEARED APPROACH- ATC authorization for an aircraft to execute any standard or special instrument approach procedure for that airport. Normally, an & M9 r! m$ n4 r5 c8 E U! eaircraft will be cleared for a specific instrument M1 |6 U; O% V/ }; t; z4 Japproach procedure. & }8 i m+ I6 s$ Y! ^( M(See CLEARED (Type of) APPROACH.) 8 ^0 t' T2 g, m! |0 F- y+ v# N(See INSTRUMENT APPROACH 8 P" V! z1 S" i7 v2 f8 vPROCEDURE.) (Refer to 14 CFR Part 91.) 7 K: a8 q* e h+ y# t* v(Refer to AIM.) CLEARED (Type of) APPROACH- ATC authoriza‐ tion for an aircraft to execute a specific instrument : _. F) i& O* z$ Fapproach procedure to an airport; e.g., “Cleared ILS 9 T& T( l& u! M; L# U& hRunway Three Six Approach.” (See APPROACH CLEARANCE.) (See INSTRUMENT APPROACH PROCEDURE.) " \% B3 A. G2 m6 P4 V$ R8 G2 L(Refer to 14 CFR Part 91.) ' E1 ^0 x+ w& t1 t1 J( \8 C8 j% N4 @(Refer to AIM.) 4 }1 ?7 E- E: F' J- G4 UCLEARED AS FILED- Means the aircraft is cleared 6 v1 u; W' O7 Fto proceed in accordance with the route of flight filed , y& u. y( O9 p0 D. @" S$ Y+ qin the flight plan. This clearance does not include the . T2 [$ ?1 D. Zaltitude, DP, or DP Transition. (See REQUEST FULL ROUTE CLEARANCE.) (Refer to AIM.) CLEARED FOR TAKEOFF- ATC authorization for an aircraft to depart. It is predicated on known 3 P* w" p% Z9 a8 ]2 qtraffic and known physical airport conditions. CLEARED FOR THE OPTION- ATC authoriza‐ tion for an aircraft to make a touch‐and‐go, low approach, missed approach, stop and go, or full stop landing at the discretion of the pilot. It is normally used in training so that an instructor can evaluate a # [) m7 X- k, s. o- Z8 mstudent's performance under changing situations. (See OPTION APPROACH.) X* u. r, C( i2 K( N ~(Refer to AIM.) CLEARED THROUGH- ATC authorization for an aircraft to make intermediate stops at specified 4 O* f! n6 n6 c5 {5 J0 v' e# U ^* `airports without refiling a flight plan while en route to the clearance limit. 7 }- {( l4 M/ s+ z3 u+ [CLEARED TO LAND- ATC authorization for an / ]$ f2 ]% p8 H- _aircraft to land. It is predicated on known traffic and 8 K; {0 O. t k+ Bknown physical airport conditions. & t' N& r0 h- M" Z1 A- u* S- ]. WCLEARWAY- An area beyond the takeoff runway - S0 Z* o: Y6 a+ v8 Gunder the control of airport authorities within which 9 A0 L% Z+ w: ?5 e3 { Kterrain or fixed obstacles may not extend above ) \! e# @+ `( z, [, Wspecified limits. These areas may be required for certain turbine‐powered operations and the size and 4 }) P: {/ I B' ?7 o A2 hupward slope of the clearway will differ depending on when the aircraft was certificated. 4 h. \: [* P+ y/ E2 g(Refer to 14 CFR Part 1.) CLIMB TO VFR- ATC authorization for an aircraft / K0 j9 j9 ^$ R/ b9 k4 zto climb to VFR conditions within Class B, C, D, and ! O2 K' J, }" h0 {& Y: YE surface areas when the only weather limitation is ( Z: a6 E" L! p5 l8 i* ~3 Rrestricted visibility. The aircraft must remain clear of , f0 x1 T: R4 ?+ q: [0 K, hclouds while climbing to VFR. (See SPECIAL VFR CONDITIONS.) (Refer to AIM.) . _: }! B0 w2 d- I+ pCLIMBOUT- That portion of flight operation " O9 `* y/ j: r: e! P- Vbetween takeoff and the initial cruising altitude. 0 [) v4 J# |/ O; uPilot/Controller Glossary 2/14/08 N7 F$ O% k, ~0 HPCG C-4 CLOSE PARALLEL RUNWAYS- Two parallel runways whose extended centerlines are separated by * n* {# z' Z+ T) r, I6 X/ yless than 4,300 feet, having a Precision Runway , M! c* j0 G, y7 AMonitoring (PRM) system that permits simultaneous independent ILS approaches. CLOSED RUNWAY- A runway that is unusable for aircraft operations. Only the airport management/ ! t! ?( j+ J; S4 k" L+ H" Qmilitary operations office can close a runway. - Q7 f4 A, @2 r( E# I* j, N% D4 f* gCLOSED TRAFFIC- Successive operations involv‐ / ?* X( I/ @/ Z' g- U- g; \: s q! aing takeoffs and landings or low approaches where the aircraft does not exit the traffic pattern. CLOUD- A cloud is a visible accumulation of 2 ?# N: L0 n4 c, fminute water droplets and/or ice particles in the atmosphere above the Earth's surface. Cloud differs from ground fog, fog, or ice fog only in that the latter are, by definition, in contact with the Earth's surface. 6 z0 G9 v% ~, SCLT(See CALCULATED LANDING TIME.) CLUTTER- In radar operations, clutter refers to the reception and visual display of radar returns caused by precipitation, chaff, terrain, numerous aircraft % C. O" |( E- F1 Ztargets, or other phenomena. Such returns may limit 7 Q4 G# r# D/ Q: r' f& _3 m' Zor preclude ATC from providing services based on radar. (See CHAFF.) (See GROUND CLUTTER.) + I' o& C" H6 h( s ]3 I(See PRECIPITATION.) ; J& O2 b, a( ?9 @8 T2 [0 \, g7 }" k(See TARGET.) 3 C+ z1 e1 h9 I, L: o$ |8 z; `(See ICAO term RADAR CLUTTER.) 3 t1 C2 W0 Y* Z, g7 ZCMNPS(See CANADIAN MINIMUM NAVIGATION + y: \: g8 O: q1 x- X: CPERFORMANCE SPECIFICATION AIRSPACE.) . q+ j D' v2 A1 R2 ^0 l1 ECOASTAL FIX- A navigation aid or intersection where an aircraft transitions between the domestic route structure and the oceanic route structure. P- r4 G. R; H, aCODES- The number assigned to a particular multiple pulse reply signal transmitted by a transponder. (See DISCRETE CODE.) 1 M9 N% {) J; ICOMBINED CENTER‐RAPCON- An air traffic facility which combines the functions of an ARTCC and a radar approach control facility. 1 A: A. a/ x5 l" _( b(See AIR ROUTE TRAFFIC CONTROL CENTER.) (See RADAR APPROACH CONTROL 0 x6 ?5 m; ~- p: ?5 m# s! v9 xFACILITY.) COMMON POINT- A significant point over which & ] x) y2 D, K) G; btwo or more aircraft will report passing or have 2 d" v" p7 B& Kreported passing before proceeding on the same or diverging tracks. To establish/maintain longitudinal separation, a controller may determine a common $ `' ]4 Z8 g" p5 ]* t$ H1 u: i- d3 Ppoint not originally in the aircraft's flight plan and 6 H9 h6 u8 b2 o6 K' ]7 g X5 H: hthen clear the aircraft to fly over the point. (See SIGNIFICANT POINT.) COMMON PORTION(See COMMON ROUTE.) COMMON ROUTE- That segment of a North # \7 P% o& o/ C2 z& o! ^! GAmerican Route between the inland navigation / W% ]* o2 d! Z( ]) J) [! E: Afacility and the coastal fix. OR COMMON ROUTE- Typically the portion of a # S8 b& c! Y( \0 \7 e% W' ~RNAV STAR between the en route transition end 0 G' A: Z1 p" q N* g9 [/ @6 Fpoint and the runway transition start point; however, the common route may only consist of a single point ; T, c7 y/ z2 [! Ithat joins the en route and runway transitions. 6 z; B1 V$ ^2 X! {' e! SCOMMON TRAFFIC ADVISORY FREQUENCY " e, S9 C! k4 o(CTAF)- A frequency designed for the purpose of carrying out airport advisory practices while operating to or from an airport without an operating / M* K" E( ?9 u: [4 F% _; wcontrol tower. The CTAF may be a UNICOM, , M' l! d% a7 `/ i: \8 v& C5 tMulticom, FSS, or tower frequency and is identified in appropriate aeronautical publications. (Refer to AC 90‐42, Traffic Advisory Practices at Airports Without Operating Control Towers.) $ m* [( l- W) t' b: j nCOMPASS LOCATOR- A low power, low or medium frequency (L/MF) radio beacon installed at , [; I) a. f" W$ kthe site of the outer or middle marker of an instrument , G2 V9 j% `, ?. T, alanding system (ILS). It can be used for navigation at : H- W/ u% {7 M% _/ c1 i8 adistances of approximately 15 miles or as authorized 7 m6 H, C- I9 v' }; @( ~) s1 B2 Oin the approach procedure. a. Outer Compass Locator (LOM)- A compass % o1 p! R! z: M. p6 h& K4 rlocator installed at the site of the outer marker of an % U4 d* K" K, X7 @" _9 einstrument landing system. (See OUTER MARKER.) 3 p, X8 N. F, V- Rb. Middle Compass Locator (LMM)- A compass locator installed at the site of the middle marker of an ; P6 F# v" `7 g5 q( e/ }& Zinstrument landing system. ) j) e, m' }2 x7 w. p8 k( q4 d- v! x+ \(See MIDDLE MARKER.) 4 E7 k/ X6 i$ U6 r. h& d(See ICAO term LOCATOR.)

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COMPASS ROSE- A circle, graduated in degrees, printed on some charts or marked on the ground at an airport. It is used as a reference to either true or magnetic direction. COMPLY WITH RESTRIC TIONS - An ATC " V; P6 A1 R1 \: ~$ y oinstruction that requires an aircraft being vectored 2 `& X4 m' s9 U' W1 l aPilot/Controller Glossary 2/14/08 PCG C-5 ( p1 }7 a; j) m% }! M' Q1 h% wback onto an arrival or departure procedure to comply with all altitude and/or speed restrictions depicted on 3 e" F% h) _# @8 `0 y) ]# F6 ?# tthe procedure. This term may be used in lieu of repeating each remaining restriction that appears on the procedure. 4 n3 m+ q* }7 K# L- G! V) mCOMPOSITE FLIGHT PLAN- A flight plan which 7 P8 k; x p8 R5 D6 N6 v( Pspecifies VFR operation for one portion of flight and , m' _8 ^5 Y) j$ O% W+ e8 GIFR for another portion. It is used primarily in - h7 O% j9 m2 [: m( A: y: umilitary operations. ' C$ d8 j0 `9 n$ a* U# k(Refer to AIM.) ( }3 P$ h0 t3 R6 B$ G+ ^/ ^% PCOMPOSITE ROUTE SYSTEM- An organized * F( e) e9 R6 Zoceanic route structure, incorporating reduced lateral ! l! h% U% o; K7 f# }+ xspacing between routes, in which composite separation is authorized.