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V0.1 Airpsaces finished basic inbound and outbound

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This commit is contained in:
codelyokop
2020-12-03 22:03:21 +00:00
parent bd44671e83
commit 4685fa8a0c
2 changed files with 244 additions and 46 deletions
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final/EU/CHE/LSGG.md
+3 -2
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@@ -4,15 +4,16 @@ This is a file to add LSGG (Geneva Airport) to the [Endless ATC](https://steamco
## Features
### Implimented
* Realistic Airspace
* realistic airlines and aircraft at LSGG (as of covid)
### Planned
* realistic airlines and aircraft at LSGG
* SIDs
* STARs
## Basic Operations
### Departures
All departures have an initial climb of FL90. Most departures are towards the north and the northeast.
### Arrivals
All arrivals come in at the limit of the TMA FL160. The majority of arrivals are vectored downwind for the active runway and take an extended downwind in cases of high traffic. Holdings are outside of the Arrivals TMA and operated by Swiss Radar. There is significant terrain on the north and south side of the airport.
## Known Issues
* Celing, climb and descend altitudes restricted by game mechanics
* BENOT arrival restricted to GG514 only onto BENOT1N RWY04 due to IAF on AOR edge
final/EU/CHE/LSGG.txt
+241 -44
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@@ -223,42 +223,239 @@ airlines =
##############################################################
[area1]
#TMA4.1
##############################################################
shape = polygon ; circle or polygon
altitude = 3500 ; minimum allowed altitude in feet
#name = X ; <name, if omited then planes inbound the main airport may enter this area>
draw = 1 ; <number of invisible lines at the end of the polygon, omit for a full polygon>
labelpos = -3.1, 10.9 ; <position of label>
altitude = 7500 ; minimum allowed altitude in feet
name = LL ; <name, if omited then planes inbound the main airport may enter this area>
labelpos = -18.4, 12.89 ; <position of label>
points =
-8.1, 13.3
0, 13
-1, -4
-7.6, -4
-9.0, 10
N46.50031, E5.58632
N46.50131, E5.89028
N46.57467, E6.10541
N46.54509, E6.15373
N46.45375, E6.07519
N46.37271, E5.96220
N46.31339, E5.74242
## positions
# the last point will be automatically connected to the first point
[area2]
#TMA4
shape = polygon
altitude = 7500
#name = lsas
labelpos = 3.86, 21.19
points =
N46.57467, E6.10541
N46.54509, E6.15373
N46.45375, E6.07519
N46.37271, E5.96220
N46.31339, E5.74242
N46.24426, E5.79840
N46.37702, E6.03617
N46.57390, E6.32656
N46.73333, E6.55702
N46.76794, E6.44169
[area3]
#TMA5
shape = polygon
altitude = 7500
labelpos = 20.36, 22.77
points =
N46.73333, E6.55702
N46.67621, E6.75053
N46.65868, E6.75206
N46.54613, E6.89952
N46.46916, E6.80134
N46.44576, E6.72483
N46.45543, E6.62513
N46.58220, E6.49796
N46.57390, E6.32656
[area4]
#TMA6
shape = polygon
altitude = 8500
labelpos = 23.07, 8.40
points =
N46.46916, E6.80134
N46.43143, E6.80296
N46.42703, E6.82070
N46.39257, E6.80367
N46.35965, E6.80458
N46.17440, E6.41631
N45.98776, E6.23719
N46.04852, E6.15897
N46.43740, E6.69801
N46.44576, E6.72483
[area5]
#TMA7
shape = polygon
altitude = 10500
labelpos = 19.84, -0.96
points =
N46.35965, E6.80458
N46.32079, E6.80581
N46.25736, E6.85272
N46.07779, E6.47823
N45.87433, E6.27316
N45.91907, E6.20389
N45.97379, E6.25607
N45.98776, E6.23719
N46.17440, E6.41631
[area6]
#TMA8
shape = polygon
altitude = 9500
name = LB
labelpos = 2.45, -15.06
points =
N45.91907, E6.20389
N45.93139, E6.18299
N45.87377, E6.12841
N45.82914, E5.58071
N45.92996, E5.66084
N45.90520, E5.73253
N45.90240, E5.81703
N45.91731, E5.88490
N46.04852, E6.15897
N45.98776, E6.23719
N45.97379, E6.25607
[area7]
#TMA9
shape = polygon
altitude = 11500
name = LB
labelpos = -5.58, -24.87
points =
N45.82914, E5.58071
N45.87377, E6.12841
N45.84271, E6.10006
N45.80667, E6.09516
N45.77539, E5.97706
N45.74465, E5.70102
N45.79646, E5.55506
[area8]
#TMA10
shape = polygon
altitude = 11500
name = LB
labelpos = -5.66, -31.54
points =
N45.80667, E6.09516
N45.77539, E5.97706
N45.74465, E5.70102
N45.79646, E5.55506
N45.71675, E5.48792
N45.68588, E5.49736
N45.62078, E6.08624
[area9]
#TMA2
shape = polygon
altitude = 5500
labelpos = -20.21, -9.11
points =
N45.92996, E5.66084
N45.90520, E5.73253
N45.90240, E5.81703
N45.91731, E5.88490
N46.04852, E6.15897
N46.43722, E6.69775
N46.43740, E6.69801
N46.44576, E6.72483
N46.45543, E6.62513
N46.58220, E6.49796
N46.52819, E6.38759
N46.36766, E6.55055
N45.97351, E5.84085
N45.99943, E5.80369
N46.08570, E5.78429
N46.11749, E5.81722
N46.18289, E5.68107
N46.17281, E5.65549
N46.11139, E5.58505
N46.04364, E5.56927
N45.97664, E5.59866
[area10]
#TMA3
shape = polygon
altitude = 6500
labelpos = -14.35, -3.48
points =
N46.18289, E5.68107
N46.24426, E5.79840
N46.37702, E6.03617
N46.57390, E6.32656
N46.58220, E6.49796
N46.52819, E6.38759
N46.39407, E6.11037
N46.11749, E5.81722
[area11]
#TMA1
shape = polygon
altitude = 3500
labelpos = 14.62, 8.93
points =
N46.52819, E6.38759
N46.36766, E6.55055
N45.97351, E5.84085
N45.99943, E5.80369
N46.08570, E5.78429
N46.11749, E5.81722
N46.39407, E6.11037
[area12]
#CTR
shape = polygon
points =
N46.19114, E5.93784
N46.37068, E6.20219
N46.38076, E6.23576
N46.38033, E6.26280
N46.37444, E6.28581
N46.36455, E6.30395
N46.34795, E6.31755
N46.33143, E6.32075
N46.31521, E6.31797
N46.30108, E6.30813
N46.12010, E6.03839
N46.11127, E6.00912
N46.11127, E5.98092
N46.11693, E5.95929
N46.13029, E5.93590
N46.14671, E5.92535
N46.16232, E5.92232
N46.18075, E5.92803
##############################################################
[departure1]
#[departure1]
##############################################################
runway = rwy2 ; runway identifier, <reversed use>
route1 =
bco2, beacon two
12, 0
18.6, 0
18.6, 6.8
25, 16.5
#runway = rwy2 ; runway identifier, <reversed use>
#route1 =
# bco2, beacon two
# 12, 0
# 18.6, 0
# 18.6, 6.8
# 25, 16.5
# first line of the route is the sid name (up to 5 characters will be displayed), and optional <pronunciation> of the sid name
# next lines are one or more waypoint positions
route2 =
south
12, 0
15.3, -4.7
0, -16.6
0, -25
#route2 =
# south
# 12, 0
# 15.3, -4.7
# 0, -16.6
# 0, -25
# the optional [departure] section adds routes to a specific runway direction
# this overrides the default (single waypoint) SIDs with more detailed routes, and applies the routes to the specified runway only
@@ -270,34 +467,34 @@ route2 =
##############################################################
[approach1]
#[approach1]
##############################################################
runway = rwy1, rev ; runway identifier, <reversed use>
beacon = lima, 1, 18, 0, lima ; selectable beacon to enable APP mode; define a beacon, or choose a name from beacon list above
route1 =
060
-3, 22, 5500, 210
1, 22
1, 18, 4000
-3, 18, 0, 180
10.5, 3000, 200
#runway = rwy1, rev ; runway identifier, <reversed use>
#beacon = lima, 1, 18, 0, lima ; selectable beacon to enable APP mode; define a beacon, or choose a name from beacon list above
#route1 =
# 060
# -3, 22, 5500, 210
# 1, 22
# 1, 18, 4000
# -3, 18, 0, 180
# 10.5, 3000, 200
# first item of the route is the bearing from the plane towards the beacon; if there are multiple routes defined for this beacon, the closest bearing defines which route is selected
# next lines are optional waypoints: ## position, <maximum altitude>, <maximum speed>
# last line is the interception point on the ILS: ## distance (NM) from the (displaced) threshold, <maximum altitude>, <maximum speed>
route2 =
310
1, 18, 4000
-3, 18, 0, 180
10.5, 3000, 200
#route2 =
# 310
# 1, 18, 4000
# -3, 18, 0, 180
# 10.5, 3000, 200
route3 =
010
1, 10
1, 18, 4000
-3, 18, 0, 180
10.5, 3000, 200
#route3 =
# 010
# 1, 10
# 1, 18, 4000
# -3, 18, 0, 180
# 10.5, 3000, 200
# multiple [approach] sections can be used for the same runway, to allow for multiple beacons
# for easier creation of routes, use left Ctrl key to display current mouse coordinates, and left click while holding down Ctrl places temporary visual markers