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Part 7. Principles of separation. Vertical Separation. Vertical separation is obtained by requiring aircraft using prescribed altimeter setting procedures to operate at different levels expressed in terms of flight levels or altitudes. Vertical separation minimum (VSM):.
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Vertical Separation Vertical separation is obtained by requiring aircraft using prescribed altimeter setting procedures to operate at different levels expressed in terms of flight levels or altitudes. Vertical separation minimum (VSM): a) a nominal 300 m (1 000 ft) below FL 290 and a nominal 600 m (2 000 ft) at or above this level, except as provided for in b) below; and b) within designated airspace, subject to a regional air navigation agreement: a nominal 300 m (1 000 ft) below FL 410 or a higher level where so prescribed for use under specified conditions, and a nominal 600 m (2 000 ft) at or above this level.
Flight Level = 1013.2 Altitude = QNH Vertical Separation
No clearance shall be given to execute any manoeuvre that would reduce the spacing between two aircraft to less than the separation minimum applicable in the circumstances Larger separations than the specified minima should be applied whenever wake turbulence or exceptional circumstances such as unlawful interference call for extra precautions. This should be done with due regard to all relevant factors so as to avoid impeding the flow of air traffic by the application of excessive separations.
Minimum cruising level • Cruising levels below the Minimum Flight Altitudes • (MFA’s) established by the State shall not be • assigned without specific authority of the appropriate • authority • Area Control Centres (ACC’s) shall: - determine the lowest useable flight level (or levels) for the whole (or parts) of the control area for which they are responsible, and - use it when assigning flight levels, and - pass it pilots on request
When an aircraft has been cleared into a centre’s • control area at a cruising level which is below the • established minimum cruising level for a subsequent • portion of the route……... …….action should be initiated by that ACC to issue a revised clearance to the aircraft….. ….even though the pilot has not requested the necessary cruising level change.
When necessary, an aircraft may be cleared to • change cruising levels at a specified time, place • or rate • In so far as practicable, cruising levels of • aircraft flying to the same destination • shall be assigned in a manner that will • be correct for an approach sequence at • destination • An aircraft at a cruising level shall normally have • priority over other aircraft desiring that cruising level. • When two or more aircraft are at the same cruising • level, the preceding aircraft shall normally have • priority
Cruising levels, or in the case of cruise climb, the range of levels, to be assigned to controlled flights shall be selected from those allocated to IFR flights in: • The Table of Cruising Levels, or • A modified Table of Cruising Levels when so • prescribed for flight above FL410 Except that the correlation of levels to track shall not apply whenever otherwise indicated in: • appropriate AIP’s, or • ATC clearances
VFR Flights IFR Flights VFR Flights IFR Flights Altitude Altitude Altitude Altitude FL Metres Feet FL Metres Feet FL Metres Feet FL Metres Feet 0 20 40 60 80 100 -90 10 30 50 70 90 - - 35 55 75 95 - - 1 050 1 700 2 300 2 900 - - 3 500 5 500 7 500 9 500 - - 45 65 85 105 - - 1 350 2 000 2 600 3 200 - - 4 500 6 500 8 500 10 500 300 900 1 500 2 150 2 750 1 000 3 000 5 000 7 000 9 000 600 1 200 1 850 2 450 3 050 2 000 4 000 6 000 8 000 10 000 120 140 160 180 200 3 650 4 250 4 900 5 500 6 100 12 000 14 000 16 000 18 000 20 000 125 145 165 185 205 3 800 4 400 5 050 5 650 6 250 12 500 14 500 16 500 18 500 20 500 11 000 13 000 15 000 17 000 19 000 115 135 155 175 195 3 500 4 100 4 700 5 350 5 950 11 500 13 500 15 500 17 500 19 500 110 130 150 170 190 3 350 3 950 4 550 5 200 5 800 6 400 7 000 7 600 8 250 8 850 21 000 23 000 25 000 27 000 29 000 215 235 255 275 300 6 550 7 150 7 750 8 400 9 150 21 500 23 500 25 500 27 500 30 000 220 240 260 280 310 6 700 7 300 7 900 8 550 9 450 22 000 24 000 26 000 28 000 31 000 225 245 265 285 320 6 850 7 450 8 100 8 700 9 750 22 500 24 500 26 500 28 500 32 000 210 230 250 270 290 330 370 10 050 11 300 33 000 37 000 340 380 10 350 11 600 34 000 38 000 350 390 10 650 11 900 35 000 39 000 360 400 10 950 12 200 36 000 40 000 12 800 14 000 15 250 42 000 46 000 50 000 430 470 510 13 100 14 350 15 550 43 000 47 000 51 000 440 480 520 13 400 14 650 15 850 44 000 48 000 52 000 410 450 490 12 500 13 700 14 950 41 000 45 000 49 000 420 460 500 TABLE OF CRUISING LEVELS From 180 degrees to 359 degrees** (magnetic) From 000 degrees to 179 degrees ** (magnetic)
HORIZONTAL SEPARATION (LATERAL) Lateral Separation shall be applied so that the distance between those portions of the intended routes for which aircraft are to be laterally separated is never less than an established distance to account for navigational inaccuracies plus a specified buffer • The buffer shall be determined by the appropriate • authority in the lateral separation minima as an • integral part thereof Note: In the minima specified in the following section, an appropriate buffer has already been included
Lateral Separation of aircraft at the same level is obtained by requiring operation: • On different routes, or • In different geographical locations as determined by: - visual observation, or - by use of navigation aids, or - by use of area navigation equipment
HORIZONTAL SEPARATION (LATERAL) Geographical Separation is separation positively indicated by position reports over different geographical locations as determined: • visually, or • by reference to a navigation aid
VOR • NDB HORIZONTAL SEPARATION (LATERAL) Track Separation between aircraft using the same navigation aid or method is separation achieved by requiring aircraft to fly on specified tracks which are separated by a minimum amount appropriate to the navigation aid,
from the facility 28km/15nm 15º VOR: • At least 15 degrees between • tracks, and • At a distance of 28km/15nm • or more
from the facility 28km/15nm 30º NDB: • At least 30 degrees between • tracks, and • At a distance of 28km/15nm • or more
HORIZONTAL SEPARATION (LONGITUDINAL) Longitudinal Separation shall be applied so that the spacing between the estimated positions of the aircraft being separated is never less than a prescribed minimum. • Longitudinal separation between aircraft following • the same or diverging tracks may be maintained by • application of the Mach number technique, when • so prescribed on the basis of regional air navigation • agreement.
Longitudinal Separation shall be established by requiring aircraft to: • Depart at a specified time, or • To lose time to arrive over a geographical location • at a specified time • To hold over a geographical location until a specified • time
For the purpose of application of Longitudinal Separation, the terms: • Same Track • Reciprocal Tracks • Crossing Tracks …...shall have the following meanings…...
250º track 250º track 44º 44º <45º 270º track 270º track 44º 44º >315º Same Track Same direction tracks and intersecting tracks (or portions thereof), the angular difference of which is less than 45º or more than 315º, and whose protection areas overlap
070º track 070º track 44º 44º >135º 270º track 270º track 44º <225º 44º Reciprocal Tracks Opposite direction tracks and intersecting tracks (or portions thereof), the angular difference of which is more than 135º or less than 225º, and whose protection areas overlap
360º track 360º track 44º 44º 44º 44º 270º track 270º track 44º 44º 44º 44º Crossing Tracks Intersecting tracks (or portions thereof), the angular difference of which is other than those specified for Same Track or Reciprocal Tracks
15 minutes Longitudinal separation based on time Aircraft at same cruising level Aircraft flying on the same track 15 minutes ….or,
Nav aid Nav aid 10 minutes Aircraft at same cruising level Aircraft flying on the same track 10 minutes if navigation aids permit frequent determinationof position and speed ….or,
Aerodrome 5 mins Aircraft at same cruising level Aircraft flying on the same track 5 minutes(in each of the following cases) provided the preceding aircraft is maintaining a TAS of 37km/h (20kts) or more faster than the succeeding aircraft: • Between aircraft that have departed from the same • aerodrome 20kts or more faster
Reporting Point 5 mins Longitudinal separation based on time • Between aircraft that have reported over the same • exact reporting point 20kts or more faster
Aerodrome 3 mins Aircraft at same cruising level Aircraft flying on the same track 3 minutes(in each of the following cases) provided the preceding aircraft is maintaining a TAS of 74km/h (40kts) or more faster than the succeeding aircraft: • Between aircraft that have departed from the same • aerodrome 40kts or more faster
Reporting Point 3 mins Longitudinal separation based on time • Between aircraft that have reported over the same • exact reporting point 40kts or more faster
15 minutes Aircraft at the same cruising level Aircraft flying on crossing tracks 15 minutes ….or,
10 minutes Aircraft at the same cruising level Aircraft flying on crossing tracks 10 minutes If navigation aids permit frequent determination of position and speed.
Where lateral separation is not provided, vertical separation shall be provided for at least 10 minutes prior to and after 10 min 10 min Aircraft flying on reciprocal tracks • the time the aircraft are estimated to pass, or • the time the aircraft are estimated to have passed Estimated time of passing • Provided that it has been determined that the aircraft have • passed each other, this minimum need not apply
Longitudinal separation based on distance Separation shall be established by maintaining not less than specified distance(s) between aircraft as reported by reference to DME in conjunction with other appropriate navigation aids. • Direct controller-pilot communication shall be • maintained while such separation is used.
20nm (37km) Aircraft at the same cruising level Aircraft flying on the same track 20nm (37km) Provided: • Each aircraft utilises “on-track” DME stations • Checked by simultaneous DME readings from the • aircraft at frequent intervals ….or,
10nm (19km) 10nm (19km) Provided: • The leading aircraft maintains a TAS of 20kts • (37km/h)or more faster than the succeeding aircraft • Each aircraft utilises “on-track” DME stations • Checked by simultaneous DME readings from the • aircraft at frequent intervals 20kt (37km/h) or more faster
Aircraft at the same cruising level Aircraft flying on crossing tracks 20nm (37km) Provided: • Each aircraft utilises “on-track” DME stations • Checked by simultaneous DME readings from the • aircraft at frequent intervals • Each aircraft reports distance from the station • located at the crossing point of the tracks • The relative angle between the tracks is less than 90º
20nm (37km) ….or,
10nm (19km) 20kt (37km/h) or more faster
Aircraft flying on reciprocal tracks Aircraft utilising “on-track” DME may be cleared to climb or descend to or through levels occupied by other aircraft utilising “on-track” DME provided: • it has been positively established that the aircraft • have passed each other, and • are at least 10nm apart (or other such value as • prescribed by the appropriate ATS authority)
USE OF ATS SURVEILLANCE SYSTEMS (RADAR) IN THE AIR TRAFFIC CONTROL SERVICE • Functions • The information provided by ATS surveillance systems and presented on a situation display may be used to perform the following functions in the provision of air traffic control service: • a) provide ATS surveillance services as necessary in order to improve airspace utilization, reduce delays, provide for direct routings and more optimum flight profiles, as well as to enhance safety; • b) provide vectoring to departing aircraft for the purpose of facilitating an expeditious and efficient departure flow and expediting climb to cruising level; • c) provide vectoring to aircraft for the purpose of resolving potential conflicts;
USE OF ATS SURVEILLANCE SYSTEMS (RADAR) IN THE AIR TRAFFIC CONTROL SERVICE • Functions: • d) provide vectoring to arriving aircraft for the purpose of establishing an expeditious and efficient approach sequence; • e) provide vectoring to assist pilots in their navigation, e.g. to or from a radio navigation aid, away from or around • areas of adverse weather; • f) provide separation and maintain normal traffic flow when an aircraft experiences communication failure within • the area of coverage; • g) maintain flight path monitoring of air traffic; • h) when applicable, maintain a watch on the progress of air traffic, in order to provide a procedural controller with improved position information regarding aircraft under control
RADAR SEPARATION MINIMA Unless otherwise prescribed, the horizontal separation minimum based on radar and/or ADS-B shall be 9.3 km (5.0 NM). The following distance-based wake turbulence separation minima shall be applied to aircraft being provided with an ATS surveillance service in the approach and departure phases of flight in the following circumstances: Aircraft category Preceding A/C Succeeding A/C Distance-based wake turbulence separation minima HEAVY HEAVY 7.4 km (4.0 NM) HEAVY MEDIUM 9.3 km (5.0 NM) HEAVY LIGHT 11.1 km (6.0 NM) MEDIUM LIGHT 9.3 km (5.0 NM)
NATIONAL APPLICATION (GEORGIA) OF RADAR SEPARATION MINIMA ACC Radar Minima - 10nm (Class A,C) APP Radar Minima - 5 nm (Class C)