From 0803e8649d5327f26f7003311188e944a316a06b Mon Sep 17 00:00:00 2001 From: Calvin Ng Date: Wed, 2 Dec 2020 21:50:36 -0800 Subject: [PATCH] RJTT ACA 2.2.0 RC2 --- final/AS/JPN/RJTT.txt | 141 ++++++++++++++++++--- final/AS/JPN/RJTT_readme.md | 19 ++- final/AS/JPN/RJTT_readme_JA.md | 218 +++++++++++++++++++++++++++++++++ final/AS/JPN/source/RJTT.txt | 56 ++++++--- 4 files changed, 394 insertions(+), 40 deletions(-) create mode 100644 final/AS/JPN/RJTT_readme_JA.md diff --git a/final/AS/JPN/RJTT.txt b/final/AS/JPN/RJTT.txt index b6ed9b4..ca8da76 100644 --- a/final/AS/JPN/RJTT.txt +++ b/final/AS/JPN/RJTT.txt @@ -401,11 +401,12 @@ airlines = #cargo #! ana, 300, b763, all neeppon, w #! ana, 100, b77l, all neeppon, w +#! vda, 50, a124, volga, nswe #jasdf jf-1, 10, b77w, japan force, nswe cygns-1, 10, b77w, sig nus, nswe #jcg - jcg-11, 10, glf5, japan coast guard, nsw +#1 jcg-11, 100, glf5, japan coast guard, nsw #jcab ckstr-11, 10, c25c, check star, w #ga @@ -417,6 +418,25 @@ airlines = code-1, 1, b744, code, w cf-1, 1, a310, can force, e cotam-1, 1, a332, cotam, n + bga-1, 1, a3st/a337, beluga, nswe + m-abcd, 1, a343, 0, n + ur-aba, 1, a319, 0, n + svw, 2, a318/a319/b739/b763/glex, silver arrows, nswe + auh, 1, b772/b773/b788/b789, sultan, w + aws, 1, b737, arab wings, w + hb-abc, 1, a319, 0, w + qaf, 1, a332/a342/a343/a345/b748, amiri, w + gaf-1, 1, a343, german air force, n + sva, 1, a342, saudia, w + aic-1, 1, b744, air india, w + 5u-grn, 1, b737, 0, w + ame-1, 1, a310, spanish air force, n + brs-1, 1, a319, brasilian air force, e + asy-1, 1, b737, aussie, s + ssg-1, 1, a319, slovak government, n + saa, 1, a346, springbok, w + tc-abc, 1, a332, 0, n + cca-1, 1, b744, air china, w # ja-123a, 100, be58/p46t/t206/c172/kodi/p68/pa46/c25m/c525/c25a/hdjt/glf5/glf6, 0, nswe # ja-12ab, 100, be58/p46t/t206/c172/kodi/p68/pa46/c25m/c525/c25a/hdjt/glf5/glf6, 0, nswe # ja-1234, 100, be58/p46t/t206/c172/kodi/p68/pa46/c25m/c525/c25a/hdjt/glf5/glf6, 0, nswe @@ -2492,6 +2512,11 @@ airlines = ana, 10, b77l, all neeppon, w ana, 10, b77l, all neeppon, w ana, 10, b77l, all neeppon, w + vda, 10, a124, volga, nswe + vda, 10, a124, volga, nswe + vda, 10, a124, volga, nswe + vda, 10, a124, volga, nswe + vda, 10, a124, volga, nswe #!expansionoutputend [airport2] @@ -2554,11 +2579,11 @@ airlines = #! jal, 600, b77w/a359, japan air, nwe #! jal, 300, a359, japan air, nsw #! jal, 300, b738, japan air, w -#! jjp, 600, a320, orange liner, w -#! jjp, 100, a320, orange liner, s -#! jjp, 100, a320, orange liner, n -#! apj, 400, a320/a20n, air peach, w -#! apj, 100, a320/a20n, air peach, n +#! jjp, 800, a320, orange liner, w +#! jjp, 200, a320, orange liner, s +#! jjp, 200, a320, orange liner, n +#! apj, 600, a320/a20n, air peach, w +#! apj, 200, a320/a20n, air peach, n #! sky, 200, b738, skymark, w #! sky, 100, b738, skymark, s #! sjo, 300, b738, j spring, w @@ -2643,6 +2668,7 @@ airlines = #! cxa, 100, b789, xiamen air, w #! cxa, 100, b738, xiamen air, w #! tzp, 100, b788, zipair, nwe +#! sjx, 100, a20n, star walker, w #cargo #! ana, 200, b763, all neeppon, nws #! ana, 200, b77l, all neeppon, nws @@ -2696,7 +2722,9 @@ airlines = db-abc, 1, c25m/c525/c25a/hdjt/glf4/glf5/glf6/lj35/lj60/glex/cl30/cl35, 0, nswe g-abcd, 1, c25m/c525/c25a/hdjt/glf4/glf5/glf6/lj35/lj60/glex/cl30/cl35, 0, nswe f-abcd, 1, c25m/c525/c25a/hdjt/glf4/glf5/glf6/lj35/lj60/glex/cl30/cl35, 0, nswe - n-123ab, 10, b737/b763/a319, 0, nswe + n-123ab, 3, b737/b763/a319, 0, nswe + bga-1, 1, a3st/a337, beluga, nswe + gti, 1, blcf, giant, nswer # ja-123a, 100, be58/p46t/t206/c172/kodi/p68/pa46/c25m/c525/c25a/hdjt/glf5/glf6, 0, nswe # ja-12ab, 100, be58/p46t/t206/c172/kodi/p68/pa46/c25m/c525/c25a/hdjt/glf5/glf6, 0, nswe # ja-1234, 100, be58/p46t/t206/c172/kodi/p68/pa46/c25m/c525/c25a/hdjt/glf5/glf6, 0, nswe @@ -3272,6 +3300,26 @@ airlines = jjp, 10, a320, orange liner, w jjp, 10, a320, orange liner, w jjp, 10, a320, orange liner, w + jjp, 10, a320, orange liner, w + jjp, 10, a320, orange liner, w + jjp, 10, a320, orange liner, w + jjp, 10, a320, orange liner, w + jjp, 10, a320, orange liner, w + jjp, 10, a320, orange liner, w + jjp, 10, a320, orange liner, w + jjp, 10, a320, orange liner, w + jjp, 10, a320, orange liner, w + jjp, 10, a320, orange liner, w + jjp, 10, a320, orange liner, w + jjp, 10, a320, orange liner, w + jjp, 10, a320, orange liner, w + jjp, 10, a320, orange liner, w + jjp, 10, a320, orange liner, w + jjp, 10, a320, orange liner, w + jjp, 10, a320, orange liner, w + jjp, 10, a320, orange liner, w + jjp, 10, a320, orange liner, w + jjp, 10, a320, orange liner, w jjp, 10, a320, orange liner, s jjp, 10, a320, orange liner, s jjp, 10, a320, orange liner, s @@ -3282,6 +3330,26 @@ airlines = jjp, 10, a320, orange liner, s jjp, 10, a320, orange liner, s jjp, 10, a320, orange liner, s + jjp, 10, a320, orange liner, s + jjp, 10, a320, orange liner, s + jjp, 10, a320, orange liner, s + jjp, 10, a320, orange liner, s + jjp, 10, a320, orange liner, s + jjp, 10, a320, orange liner, s + jjp, 10, a320, orange liner, s + jjp, 10, a320, orange liner, s + jjp, 10, a320, orange liner, s + jjp, 10, a320, orange liner, s + jjp, 10, a320, orange liner, n + jjp, 10, a320, orange liner, n + jjp, 10, a320, orange liner, n + jjp, 10, a320, orange liner, n + jjp, 10, a320, orange liner, n + jjp, 10, a320, orange liner, n + jjp, 10, a320, orange liner, n + jjp, 10, a320, orange liner, n + jjp, 10, a320, orange liner, n + jjp, 10, a320, orange liner, n jjp, 10, a320, orange liner, n jjp, 10, a320, orange liner, n jjp, 10, a320, orange liner, n @@ -3332,6 +3400,36 @@ airlines = apj, 10, a320/a20n, air peach, w apj, 10, a320/a20n, air peach, w apj, 10, a320/a20n, air peach, w + apj, 10, a320/a20n, air peach, w + apj, 10, a320/a20n, air peach, w + apj, 10, a320/a20n, air peach, w + apj, 10, a320/a20n, air peach, w + apj, 10, a320/a20n, air peach, w + apj, 10, a320/a20n, air peach, w + apj, 10, a320/a20n, air peach, w + apj, 10, a320/a20n, air peach, w + apj, 10, a320/a20n, air peach, w + apj, 10, a320/a20n, air peach, w + apj, 10, a320/a20n, air peach, w + apj, 10, a320/a20n, air peach, w + apj, 10, a320/a20n, air peach, w + apj, 10, a320/a20n, air peach, w + apj, 10, a320/a20n, air peach, w + apj, 10, a320/a20n, air peach, w + apj, 10, a320/a20n, air peach, w + apj, 10, a320/a20n, air peach, w + apj, 10, a320/a20n, air peach, w + apj, 10, a320/a20n, air peach, w + apj, 10, a320/a20n, air peach, n + apj, 10, a320/a20n, air peach, n + apj, 10, a320/a20n, air peach, n + apj, 10, a320/a20n, air peach, n + apj, 10, a320/a20n, air peach, n + apj, 10, a320/a20n, air peach, n + apj, 10, a320/a20n, air peach, n + apj, 10, a320/a20n, air peach, n + apj, 10, a320/a20n, air peach, n + apj, 10, a320/a20n, air peach, n apj, 10, a320/a20n, air peach, n apj, 10, a320/a20n, air peach, n apj, 10, a320/a20n, air peach, n @@ -4292,6 +4390,16 @@ airlines = tzp, 10, b788, zipair, nwe tzp, 10, b788, zipair, nwe tzp, 10, b788, zipair, nwe + sjx, 10, a20n, star walker, w + sjx, 10, a20n, star walker, w + sjx, 10, a20n, star walker, w + sjx, 10, a20n, star walker, w + sjx, 10, a20n, star walker, w + sjx, 10, a20n, star walker, w + sjx, 10, a20n, star walker, w + sjx, 10, a20n, star walker, w + sjx, 10, a20n, star walker, w + sjx, 10, a20n, star walker, w ana, 10, b763, all neeppon, nws ana, 10, b763, all neeppon, nws ana, 10, b763, all neeppon, nws @@ -4719,7 +4827,7 @@ entrypoints = #MERED KAMOG 135, KAMOG #KOGAR LEMUM - 330, TOHNE +# 330, TOHNE #HAGAR KIDOR 350, ASEKI @@ -14286,7 +14394,7 @@ route1 = [approach235] -runway = RJTLRWY +runway = RJTLRWY, rev beacon = OMIYA, N35.55.05.96, E139.35.48.54 route1 = @@ -14615,7 +14723,7 @@ config1 = 0, RJTTRWYD, startrev 0, RJAARWYB, landstart 0, RJAARWYA, landstart - 0, RJTLRWY, landstartrev + 45, RJTLRWY, landstartrev #South wind operation #RJTT departing 16L/16R, arriving ILS 22/ILS 23 @@ -14628,7 +14736,7 @@ config2 = 0, RJTTRWYC, startrev 0, RJAARWYB, landstartrev 0, RJAARWYA, landstartrev - 0, RJTLRWY, landstart + 45, RJTLRWY, landstart #South wind operation (afternoon) #RJTT departing 16R/22, arriving 16L/16R @@ -14640,7 +14748,7 @@ config3 = 0, RJTTRWYB, start 0, RJAARWYB, landstartrev 0, RJAARWYA, landstartrev - 0, RJTLRWY, landstart + 45, RJTLRWY, landstart #South wind operation VMC #RJTT departing 16L/16R, arriving LDA 22/LDA 23 @@ -14653,7 +14761,7 @@ config4 = 0, RJTTRWYDLDA, land 0, RJAARWYB, landstartrev 0, RJAARWYA, landstartrev - 0, RJTLRWY, landstart + 45, RJTLRWY, landstart #Calm wind operation #RJTT departing 34R/05, arriving 34L/34R @@ -14665,7 +14773,7 @@ config5 = 0, RJTTRWYD, startrev 0, RJAARWYB, landstart 0, RJAARWYA, landstart - 0, RJTLRWY, landstartrev + 45, RJTLRWY, landstartrev @@ -14678,4 +14786,7 @@ types = p3, 5, 160, 250, 2.8, 3.2, 1400, 1600, 120, 140, 1.2, 1.4, orion ys11, 5, 160, 250, 2.8, 3.2, 1400, 1600, 110, 130, 1.2, 1.4, namc kc2, 4, 150, 250, 2.8, 3.2, 1400, 1800, 110, 140, 1.3, 1.5, kawasaki - c130, 4, 140, 250, 2.8, 3.2, 1400, 1700, 110, 140, 1.3, 1.5, hercules \ No newline at end of file + c130, 4, 140, 250, 2.8, 3.2, 1400, 1700, 110, 140, 1.3, 1.5, hercules + a3st, 3, 160, 250, 2.2, 2.4, 1400, 1600, 145, 157, 1.1, 1.2, beluga + a124, 2, 160, 250, 2.2, 2.4, 1400, 1600, 145, 157, 1.1, 1.2, ruslan + blcf, 2, 160, 250, 2.2, 2.4, 1200, 1380, 142, 158, 1.1, 1.2, dreamlifter \ No newline at end of file diff --git a/final/AS/JPN/RJTT_readme.md b/final/AS/JPN/RJTT_readme.md index 8f2e93f..5c73c2f 100644 --- a/final/AS/JPN/RJTT_readme.md +++ b/final/AS/JPN/RJTT_readme.md @@ -1,6 +1,6 @@ # `RJTT` ACA 2.2.0 -This is an implementation of the Tokyo ACA (Approach Control Area) for [Endless ATC](https://steamcommunity.com/app/666610) featuring `RJTT` Tokyo International Airport (commonly referred to as Haneda) and `RJAA` Narita International Airport. The airspace ceiling is FL240. +This is an implementation of the Tokyo ACA (Approach Control Area) for [Endless ATC](https://steamcommunity.com/app/666610) featuring `RJTT` Tokyo International Airport (commonly referred to as Haneda) and `RJAA` Narita International Airport. JSDF-M base `RJTL` Shimofusa is also represented at very high scores (difficulties). The airspace ceiling is FL240. Based upon AIP Japan 2020/10/08. The choice of SIDs and STARs may not be 100% accurate to real life but should be reasonably accurate reflecting daytime IMC conditions. All aircraft are assumed to be RNAV capable; no conventional NAVAID-based SIDs or STARs are implemented unless there is no RNAV alternative. Coastline data from naturalearthdata.com. @@ -8,10 +8,8 @@ The Tokyo ACA is a very large terminal area containing two of Japan's largest ai STARs are implemented as approach transitions. To activate an approach, an aircraft must be flying direct to an applicable fix, then the APP button can be activated. Multiple approaches may be available from a fix. Press the APP button again before issuing the approach clearance (do not long press) will select the next approach available from that fix. If the aircraft is already on an approach from that fix, you will need to cancel the approach clearance first before issuing another approach clearance. -**\*Departures may need to handed off before they reach the boundary of the ACA\***, *as there are cases where the SID exts the ACA before cruise altitude can be reached.* - -JSDF-M base `RJTE` Tateyama and JSDF-G bases `RJTK` Kisarazu, `RJAK` Kasumigaura are not represented as it appears traffic should mostly be military helicopters, which are difficult to represent in this game. JSDF-M base `RJTL` Shimofusa is not currently implemented, but may be in a future version. -`RJTO` Oshima/`RJAN` Niijima are not represented as traffic is either helicopters or traffic to `RJTF` Chofu in `RJTY` Yokota ACA. Unfortunately traffic to `RJTY` is difficult to represent as `RJTT` ACA has airspace on top of most of `RJTY` ACA, meaning that within the game, it is not possible to get planes to "spawn" from the appropriate region. +JSDF-M base `RJTE` Tateyama and JSDF-G bases `RJTK` Kisarazu, `RJAK` Kasumigaura are not represented as it appears traffic should mostly be military helicopters, which are difficult to represent in this game. +`RJTO` Oshima/`RJAN` Niijima are not represented as traffic is either helicopters or traffic to `RJTF` Chofu in `RJTY` Yokota ACA. Unfortunately traffic to `RJTY` is difficult to represent as `RJTT` ACA has airspace on top of most of `RJTY` ACA, meaning that within the game, it is not possible to get planes to "spawn" from the appropriate region. However, the runways for `RJTO`, `RJAN`, and `RJTF` are shown on the radar map. ## Airports @@ -120,7 +118,8 @@ Most fixes visible on the map have a defined hold including many fixes along the Aircraft arrive at 4 points: -- `BAFFY` -`Y81`-> `RUTAS` (southwest from western and southwestern) +- `MOE` -`Y81`-> `BAFFY` -`Y81`-> `RUTAS` (southwest from western and southwestern) +- `TOPIT` -`Y87`-> `BAFFY` -`Y81`-> `RUTAS` (south) - `VAGLA` -`Y813`-> `LUBLA` (northeast oceanic) - `LESPO` -`Y809`-> `SUPOK` (southeast oceanic) - `GURIR` -`Y30`-> `SWAMP` (north from north, northwest and northeast) @@ -172,7 +171,7 @@ There are two simple runway configurations: ### `RJTL` Shimofusa Air Base -This JSDF-M base is located under the ILS to runway 22/23 at `RJTT`. There is one runway 01/19, with an ILS approach to RWY 19 only. Use care to maintain separation of traffic from `RJTT` arrivals. When landing RWY 01, aircraft will fly the ILS 19 and circle to land RWY 01. Due to the complexity of the airspace, in Endless ATC this airport is set to open when score > 20, to allow for beginning players to understand the `RJTT` and `RJAA` routes first. +This JSDF-M base is located under the ILS to runway 22/23 at `RJTT`. There is one runway 01/19, with an ILS approach to RWY 19 only. Use care to maintain separation of traffic from `RJTT` arrivals. When landing RWY 01, aircraft will fly the ILS 19 and circle to land RWY 01. Due to the complexity of the airspace, in Endless ATC this airport is set to open when score > 45, to allow for beginning players to understand the `RJTT` and `RJAA` routes first. Aircraft arrive at 4 points: @@ -183,7 +182,7 @@ Aircraft arrive at 4 points: Aircraft depart via: -- `XAC` via `TSUGA`, `OJT`, `TET` (southwest) +- `KALMA` via `OMIYA`, `EDARR`, `KOSKA` (southwest) - `KAMOG` via `TSUGA`, `OJT` (southeast) - `OMIYA` (northwest) - `JD` (north) @@ -198,7 +197,6 @@ Approaches are available using APP mode from `TOHNE` and `ASEKI`. Arrival routes - No `RJTO` Oshima/`RJAN` Niijima (not possible to model arrivals from `RJTY` ACA) - Arrival and departure directions can be a bit nonsense (e.g. AHK arriving from the Pacific), unfortunately this is a game limitation. - South arrivals to `RJTT` 16L/16R are very close to delayed even strictly following the STAR (game limitation?) -- `SWAMP`/`SUPOK`/`LUBLA` arrivals prioritize 34R/16L (ideally they prioritze 16R/34L) ## Disclaimer @@ -254,7 +252,7 @@ Note that traffic data (`airlines = `) is expanded by a python script `expand_ai - Add full length "`2C`", "`2B`", "`2N`" approaches for `RJTT` - Correct a duplicated [area] - Add static transitions to `RJTT` and `RJAA` IAFs -* 2.2.0 - 2020/11/ +* 2.2.0 - 2020/12/02 - Add `RJTL` JSDF-M Shimofusa Air Base - Add `RJTF` Chofu, `RJTO` Oshima, `RJAN` Niijima as inactive airports - Reposition label for `[area]` "TOKYO ACA FL240/3000 (EXC 3000)" @@ -262,4 +260,5 @@ Note that traffic data (`airlines = `) is expanded by a python script `expand_ai - Internal runway identifiers revised - Remove static transitions to 34L/22/22(LDA) and 34L/16R from `CREAM`/`DATUM`/`STEAM` and `ELGAR`/`NORMA` respectively for gameplay reasons. These transitions are still available dynamically from IFs `CAMEL`/`NEXUS`/`BONUS` and `METIS`/`TEMIS` respectively. - Increased the scheduled airline to GA/bizjet traffic ratio (less GA traffic). + - Minor adjustments/updates to airline traffic. - Added 'rare' traffic (head of state, navaid check) \ No newline at end of file diff --git a/final/AS/JPN/RJTT_readme_JA.md b/final/AS/JPN/RJTT_readme_JA.md new file mode 100644 index 0000000..152e1e4 --- /dev/null +++ b/final/AS/JPN/RJTT_readme_JA.md @@ -0,0 +1,218 @@ +# `RJTT` 進入管制区 2.2.0 + +*作者は日本人ではないため、圧倒的語彙力のなさと知識不足によるおかしいまたは間違っている表現があるかもしれません。 + +TOKYO ACA(東京進入管制区)を[Endless ATC](https://steamcommunity.com/app/666610)に実装する追加データファイルです。`RJTT`東京国際空港(羽田)と`RJAA`成田国際空港が再現されています. 海上自衛隊の`RJTL`下総基地も高難易度及び高スコアでは再現されています. 空域の上限はFL240です. + +AIP Japan 2020/10/08をベースとして作られています。再現されているSID及びSTARは現実の運用と異なる場合があるかもしれませんが、基本的に日中の景気気象状態 (IMC) を再現しているつもりです。すべての航空機がRNAV対応としていて、RNAVの代わりがない場合を除き非RNAVのSID及びSTARは実装されていません。海岸のデータはnaturalearthdata.comのを使っています。 + +TOKYO ACAは日本最大の二つの空港を含む非常に広い空域です。羽田と成田に飛来する航空機の数が膨大ではありますが、これら二つの空港で定められたSID及びSTARはよく作られていて、それによって大量の航空機を捌けることができます。 プレイヤーの仕事は到着機感覚の整理と合流ポイントの監視がほとんどで、STAR外の遅延ベクターなしで40以上のスコアを叩き出せるはずです。 + +STARはこのゲームの進入方式で再現されています。進入方式に従って飛行することをを許可できる飛行機は有効なポイントに向かっていなければなりません。友好のポイントにDCTの指示を出した後、ILSの指示の代わりにAPP指示を出せます。一つのポイントから複数の進入方式が始まる場合もあります。指示を確定する前にまたAPPのボタンをクリック/キーを押すと次の進入方式に変わります。選択している飛行機がすでに進入方式に従って飛行しているならば、いったんDCTでポイントに向かう指示を選択しなければ飛行方式の変更はできません。 + +ヘリはゲームに実装されていませんので、海上自衛隊の`RJTE`館山基地と陸上自衛隊の`RJTK`木更津駐屯地`RJAK`霞ヶ浦駐屯地は実装されていません。 +`RJTY`横田進入管制区にある `RJTF` 調布飛行場からの小型飛行機、またはヘリしか飛んでこない`RJTO`大島空港と`RJAN`新島空港も実装されていません。東京進入管制区の一部の下は横田進入管制区の空域ですが、ゲームの仕様上これも管制空域に入っています(しかし入ってはいけないエリアとなっています)。そのため飛行機はその横田の空域に出ていくことも、その空域から来るのも再現するのはが難しいです。ただし、`RJTO`、`RJAN`、`RJTF`滑走路はマップ上に示しています。 + +## 登場する空港 + +### `RJTT` 東京(羽田)国際空港 + +*未翻訳 +The main airport of this sector. Previously only handling domestic traffic and very limited international flights to key East Asian cities, Haneda now handles a fair amount of international traffic along with most of Tokyo's domestic traffic. As such, traffic is biased towards the west for departures and southwest for arrivals. + +There is custom traffic for `RJTT`. The proportions are very much estimates but shouldn't be too far off from reality. + +Most fixes visible on the map have a defined hold including many fixes along the STARs. The published hold for missed approaches is `UTIBO` for 34L/23/16R, `KASGA` for 34R/22, and `SNOKE` for 16L. + +Aircraft arrive at 6 points: + +- `SPENS` -`Y71`-> `XAC` (west from western Japan, Korea, Northern China) +- `SELNO` -`Y21`-> `RUNSO` -`Y21`-> `AKSEL` (south west from southwestern Japan, Okinawa, Southeast Asia) +- `TOPIT` -`Y875`-> `RURER` -`Y875`-> `AROSA` (south from Hachijojima, Indonesia/Australia) +- `DOLBA` -`Y824`-> `AROSA` (southeast from oceanic, Australia/NZ/Pacific islands, Guam) +- `TEDIX` -`Y10`-> `GODIN` (north from northern Japan, Russia, Europe, east NA) +- `LALID` -`Y807`-> `POLIX` (east from oceanic, west NA/SA, Hawaii) + +Aircraft depart via: + +- `CLARK` (northnorthwest for Russia/Europe) +- `AGRIS` (north for northern Japan and beyond) +- `GULBO` (northeastern oceanic) +- `BORLO` (east oceanic) +- `ANSAD` (southeastern oceanic) +- `NURLI` (south) +- `KAGNA` (southwest and Osaka) +- `NINOX` (west for southern western Japan and beyond) +- `RITLA` (west for central western Japan and beyond) +- `BEKLA` (northwest such as Korea/north China/north side of western Japan) + +(`VAMOS` departures to `UTIBO` aren't implemented as there are no standard flight planned routes from `RJTT` that use this transition.) + +There are four runways: + +- 16R/34L (RWY A) +- 04/22 (RWY B) +- 16L/34R (RWY C) +- 05/23 (RWY D) + +A few different configurations are used in real operations; four are available in this version of `RJTT` ACA: + +- Landing 34L/34R, departing 34R/05 + + In general, arrivals from the southwest (`XAC`, `AKSEL`, `AROSA`) land 34L and arrivals from the northeast (`GODIN`, `POLIX`) land 34R. Departures to the northeast takeoff from 34R, and departures to the southwest takeoff from 05 in general. + + 34L handles the higher amounts of traffic from the southwest, and 05 handles the higher amounts of traffic heading southwest. The lower amounts of traffic to/from the northeast share 34R in mixed operation. 04 is not used in this configuration as it conflicts with landings on 34L (in real life, it may be used for some GA departures?). + + Approaches to 34L (RWY *A*) and 34R (RWY *C*) are available using APP mode from *A*RLON and *C*REAM respectively, with transitions from `ARLON` or `CAMEL` depending whether the aircraft is approaching from the south or the east. + + STARs are available using APP mode from `XAC`, `RUNSO`, `AROSA`, `GODIN`, `MILIT`, and many other intermediate points on the STARs. `STARS` to 34L/34R implement a point merge system around `WEDGE` for 34L and `CREAM` for 34R. Aircraft fly an arc around a point (`WEDGE`/`CREAM`), and you can sequence planes by directing planes to proceed direct `WEDGE`/`CREAM` and activate APP mode. By default south arrivals fly STARs and approaches to 34L, but you can engage APP mode twice to have planes swing wide of the `WEDGE` arc to join the `CREAM` arc for 34R. + + Note that higher arrivals will conflict with lower arrivals when descending from the point merge arc to meet the =8000 restriction at `WEDGE`. Either descend the lower arrival (watch out for further lower arrivals) or prioritize the lower arrival over the higher arrival. Also watch for `AROSA` arrivals conflicting with arrivals to `RJAA`. + + Note that the normal runway operation for 34L/34R arrivals (`HIGHW`AY `VISUA`L 34R and ILS X 34L from `KAIHO`) is not possible to implement due to the lack of visual approaches in the game and the fact that aircraft joining the parallel ILS above `RJTK` Kisarazu would conflict as they are at the same altitude. Therefore the approaches depicted are illustrative of IMC conditions necessitating the use of parallel ILS approaches. + + For an extra challenge, try routing ANA/SNJ/ADO/VIP flights to 34R (T2/VIP area) and JAL/SFJ/SKY/international/GA flights to 34L (T1/T3/N area). + +- Landing 22/23 (ILS), departing 16L/16R + + In general, arrivals from the southwest (`XAC`, `AKSEL`, `AROSA`) land **\*22\*** and arrivals from the northeast (`GODIN`, `POLIX`) land **\*23\***. Departures to the northeast takeoff from 34R, and departures to the southwest takeoff from 05 in general. + + 22/16R handles the higher amounts of traffic to/from the southwest as they do not conflict with other runways (16R departures depart before the intersection with 22). As RWY23 arrivals conflict with departures from both 16s, it is used for traffic arriving from the northeast. + + Approaches to 22 and 23 are available using APP mode from `NEXUS` and `SMILE` respectively, with transitions from *N*YLON or *S*TEAM depending whether the aircraft is approaching from the *n*orth or the *s*outh. + + `STARS` are available using APP mode from `XAC`, `RUNSO`, `AROSA`, `GODIN`, `MILIT`, and many other intermediate points on the STARs. STARs from the southwest implement a point merge system around `SHAFT` (STARs from the northeast are traditional). Aircraft fly an arc around a `SHAFT`, and you can sequence planes by directing planes to proceed direct `SHAFT` and activate APP mode. By default south arrivals fly STARs and approaches to 22, but you can engage APP mode twice to have planes descend under the `SHAFT` arc to `BACON` for 23. Be careful of conflicts with traffic from the north inbound 23. + + For an extra challenge, try routing ANA/SNJ/ADO/VIP flights to 23 (T2/VIP area) and JAL/SFJ/SKY/international/GA flights to 22 (T1/T3/N area). + +- Landing 22/23 (LDA), departing 16L/16R + + The same as the previous configuration, but instead aircraft approach 22/23 following an offset localizer on a 270 degree course over Tokyo Bay, avoiding overflight of populated areas. + + **Due to a game limitation, runways 22 and 23 are called 22C and 23C in this configuration.** + + Approaches to 22 (RWY *B*) and 23 (RWY *D*) are available using APP mode from *B*ONUS and *D*OYLE respectively, with transitions from *B*ACON or *D*ATUM depending whether the aircraft is approaching from the north or the south. + + `STARS` are available using APP mode from `XAC`, `RUNSO`, `AROSA`, `GODIN`, `MILIT`, and many other intermediate points on the STARs. STARs from the southwest implement a point merge system around `SHAFT` (STARs from the northeast are traditional). Aircraft fly an arc around a `SHAFT`, and you can sequence planes by directing planes to proceed direct `SHAFT` and activate APP mode. By default south arrivals fly STARs and approaches to 22, but you can engage APP mode twice to have planes descend under the `SHAFT` arc to `BACON` for 23. Be careful of conflicts with traffic from the north inbound 23. + + Note that the LDA approaches are represented by a runway located where one would be if the LDA approaches were straight-in ILS approaches; this is the best implementation given limitations of the game, but from an approach control perspective it should be a fairly accurate representation. + + For an extra challenge, try routing ANA/SNJ/ADO/VIP flights to 23 (T2/VIP area) and JAL/SFJ/SKY/international/GA flights to 22 (T1/T3/N area). + +- Landing 16L/16R, departing 16R/04/16L + + A new approach path flying over central Tokyo only applied in the afternoon hours, which was recently developed in response to growing traffic at `RJTT`. Normally arrivals fly close parallel RNAV tracks to the final approach course with a 3.45 degree glideslope, however, game limitations mean that parallel arrivals would be conflicting with each other all the way to the final approach fix. Therefore, the "backup" ILS approaches that take a dive into the Yokota ACA have been implemented here. + + Approaches to 16L and 16R are available using APP mode from `SANDY` and `NATTY` respectively. + + `STARS` are available using APP mode from `XAC`, `RUNSO`, `AROSA`, `GODIN`, `MILIT`, and many other intermediate points on the STARs. `STARS` to 16L/16R implement a point merge system around `SHAFT` for 16L and `NEURO` for 16R. Aircraft fly an arc around a point (`SHAFT`/`NEURO`), and you can sequence planes by directing planes to proceed direct `SHAFT`/`NEURO` and activate APP mode. By default south arrivals fly STARs and approaches to 16L, but you can engage APP mode twice to have planes fly over the `SHAFT` arc to join the `NEURO` arc for 16R. + + Note that the LDA approaches are represented by a runway located where one would be if the LDA approaches were straight-in ILS approaches; this is the best implementation given limitations of the game, but from an approach control perspective it should be a fairly accurate representation. + + For an extra challenge, try routing ANA/SNJ/ADO/VIP flights to 23 (T2/VIP area) and JAL/SFJ/SKY/international/GA flights to 22 (T1/T3/N area). + +### `RJAA` 成田国際空港 + +*未翻訳 +The secondary, yet also major airport of this sector. Previously handling almost all of Tokyo's international traffic, it has lost some of it to Haneda recently. However, it still handles a large chunk of Tokyo's international flights as well as the many cargo flights from FDX/UPS etc. RWY 34R which was too short when Narita opened to handle heavy aircraft has now been extended and can generally handle most aircraft other than the largest of aircraft such as A388. + +There is custom traffic for `RJAA`. The proportions are very much estimates but shouldn't be too far off from reality. + +Most fixes visible on the map have a defined hold including many fixes along the STARs. The published hold for missed approaches is `SWIMY` for 16R/34L and `ABBOT` for 16L/34R. + +Aircraft arrive at 4 points: + +- `MOE` -`Y81`-> `BAFFY` -`Y81`-> `RUTAS` (southwest from western and southwestern) +- `TOPIT` -`Y87`-> `BAFFY` -`Y81`-> `RUTAS` (south) +- `VAGLA` -`Y813`-> `LUBLA` (northeast oceanic) +- `LESPO` -`Y809`-> `SUPOK` (southeast oceanic) +- `GURIR` -`Y30`-> `SWAMP` (north from north, northwest and northeast) + +Aircraft depart via: + +- `AGRIS` (northwest via `TETRA8` departure `AGRIS` transition to `Y37`) +- `KIMIN` (north via `TETRA8` departure `KIMIN` transition to `Y117`) +- `GULBO` (northeast oceanic via `GULBO2` departure to `Y808`) +- `BORLO` (east oceanic via `BORLO2` departure to `Y830`) +- `IRNOK` (southsoutheast oceanic via `OLVAN2` departure to `Y823`) +- `NORIS` (south oceanic via `OLVAN2` departure `SAMUS` transition to `Y84`) +- `SEDRI` (southwest via `PIGOK2` departure to `Y50`) +- `MITOP` (west via `REDEK2` departure to `Y60`) +- `TEPEX` (northwest via `TETRA8` departure `ENPAR` transition to `Y16`) + +There are two runways: + +- 16R/34L (RWY A) +- 16L/34R (RWY B) + +There are two simple runway configurations: + +- Landing and departing 34L/34R + + Approaches to 34L and 34R are available using APP mode from `GIINA` and `TEMIS` respectively, with transitions from `TYLER` or `ELGAR` depending whether the aircraft is approaching from the south or the east. + + `STARS` are available using APP mode from `BAFFY`, `SWAMP`, `SUPOK`, `LUBLA`, and many other intermediate points on the STARs. STARs to 34L implement a point merge system around `PEAKS`. Aircraft fly an arc around `PEAKS`, and you can sequence planes by directing planes to proceed direct `PEAKS` and activate APP mode. Alternate STARs are available to 34R which do not implement a point merge arc; watch out for potential conflicts with arrivals on STARs to 34L. + + Note that higher altitude arrivals on the arc will conflict with lower altitude arrivals descending from the point merge arc to meet the =6000 restriction at `PEAKS`. Either descend the lower altitude arrival (watch out for even lower altitude arrivals) or prioritize the lower altitude arrival over the higher altitude arrival. + + For arrivals from `RUTAS`, watch out for conflicts with `AROSA` arrivals to `RJTT`. + + Departures are executed in parallel and maintain horizontal separation until east of `RJAA`. Recommend not assigning higher than 7000 to 34L departures until clear of `RJTT` arrivals from `GODIN`/`POLIX`. + + For an extra challenge, try routing oneworld/LCC flights to 34R (T2/T3) and other flights to 34L (T1/cargo area). + +- Landing and departing 16L/16R + + Approaches to 16L and 16R are available using APP mode from `MARCH` and `ACELA` respectively, with transitions from `TYLER` or `ELGAR` depending whether the aircraft is approaching from the south or the east. + + `STARS` are available using APP mode from `BAFFY`, `SWAMP`, `SUPOK`, `LUBLA`, and many other intermediate points on the STARs. `STARS` to 16R implement a point merge system around `CASIO`. Aircraft fly an arc around `CASIO`, and you can sequence planes by directing planes to proceed direct `CASIO` and activate APP mode. Alternate STARs are available to 16L which do not implement a point merge arc; watch out for potential conflicts with arrivals on STARs to 16R. + + Note that higher altitude arrivals on the arc will conflict with lower altitude arrivals descending from the point merge arc to meet the =6000 restriction at `CASIO`. Either descend the lower altitude arrival (watch out for even lower altitude arrivals) or prioritize the lower altitude arrival over the higher altitude arrival. + + Use care not to descend arrivals into `RJAH`/`RJAK` airspace. + + For an extra challenge, try routing oneworld/LCC flights to 16L (T2/T3) and other flights to 16R (T1/cargo area). + +### `RJTL` 下総基地 + +*未翻訳 +This JSDF-M base is located under the ILS to runway 22/23 at `RJTT`. There is one runway 01/19, with an ILS approach to RWY 19 only. Use care to maintain separation of traffic from `RJTT` arrivals. When landing RWY 01, aircraft will fly the ILS 19 and circle to land RWY 01. Due to the complexity of the airspace, in Endless ATC this airport is set to open when score > 20, to allow for beginning players to understand the `RJTT` and `RJAA` routes first. + +Aircraft arrive at 4 points: + +- `XAC` (southwest) +- `KAMOG` (southeast) +- `KIDOR` (north) +- `LEMUM` (northwest) + +Aircraft depart via: + +- `KALMA` via `OMIYA`, `EDARR`, `KOSKA` (southwest) +- `KAMOG` via `TSUGA`, `OJT` (southeast) +- `OMIYA` (northwest) +- `JD` (north) + +Approaches are available using APP mode from `TOHNE` and `ASEKI`. Arrival routes are available using APP mode from `XAC`, `KAMOG`, `LEMUM`, and `KIDOR`, as well as any intermediate points. + +## 既知の問題点 + +- `RJTT`のLDAアプローチはLDAによる進入のあと目視で滑走路に降りるのではなくて、ただLDAコースと同じコースのILSアプローチを持つ現実に存在しない滑走路を配置しただけ。 +- `RJTT`のRNAV 16アプローチは実装されていません。同時進入の飛行機の間隔はILSと違って高低差はないのでゲームの仕様上コンフリクトとなってペナルティを受けます。 +-晴天時の34L/34R進入方式は実装されていません(HIGHWAY VISUAL 34Rのビジュアルアプローチはゲーム上表現できないので、ゲームの仕様上ただのILSアプローチになって、`KAIHO`から合流する34L到着機とのコンフリクトになります。) +- `RJTO`大島/`RJAN`新島がない (横田からの到着を表現できない) +- 飛行機が管制空域を出る場所または管制空域に入る場所が現実と異なることがある(例えば、香港のLCCの飛行機が太平洋方面から飛んでくる) +- 南から`RJTT`の16L/16Rに着陸する飛行機がSTARで滑走路を目指してもゲームの仕様によって「遅刻」状態になりやすい(ただ飛行距離が長すぎるだけ?) + +## Disclaimer + +**現実と異なる点が多数あると思います(特に下総の飛行ルートはほぼ推測でしかない)** + +## For Developers + +*未翻訳 +Note that traffic data (`airlines = `) is expanded by a python script `expand_airlines.py` from the shorter `source/RJTT.txt` according to the definitions in '`#!`' comments. If submitting a proposed change, please submit your changes in the source file. + +## 変更履歴 + +* 2.2.0 - 2020/12/02 + -日本語初リリース \ No newline at end of file diff --git a/final/AS/JPN/source/RJTT.txt b/final/AS/JPN/source/RJTT.txt index 8e9e821..1634609 100644 --- a/final/AS/JPN/source/RJTT.txt +++ b/final/AS/JPN/source/RJTT.txt @@ -401,11 +401,12 @@ airlines = #cargo #! ana, 300, b763, all neeppon, w #! ana, 100, b77l, all neeppon, w +#! vda, 50, a124, volga, nswe #jasdf jf-1, 10, b77w, japan force, nswe cygns-1, 10, b77w, sig nus, nswe #jcg - jcg-11, 10, glf5, japan coast guard, nsw +#1 jcg-11, 100, glf5, japan coast guard, nsw #jcab ckstr-11, 10, c25c, check star, w #ga @@ -417,6 +418,25 @@ airlines = code-1, 1, b744, code, w cf-1, 1, a310, can force, e cotam-1, 1, a332, cotam, n + bga-1, 1, a3st/a337, beluga, nswe + m-abcd, 1, a343, 0, n + ur-aba, 1, a319, 0, n + svw, 2, a318/a319/b739/b763/glex, silver arrows, nswe + auh, 1, b772/b773/b788/b789, sultan, w + aws, 1, b737, arab wings, w + hb-abc, 1, a319, 0, w + qaf, 1, a332/a342/a343/a345/b748, amiri, w + gaf-1, 1, a343, german air force, n + sva, 1, a342, saudia, w + aic-1, 1, b744, air india, w + 5u-grn, 1, b737, 0, w + ame-1, 1, a310, spanish air force, n + brs-1, 1, a319, brasilian air force, e + asy-1, 1, b737, aussie, s + ssg-1, 1, a319, slovak government, n + saa, 1, a346, springbok, w + tc-abc, 1, a332, 0, n + cca-1, 1, b744, air china, w # ja-123a, 100, be58/p46t/t206/c172/kodi/p68/pa46/c25m/c525/c25a/hdjt/glf5/glf6, 0, nswe # ja-12ab, 100, be58/p46t/t206/c172/kodi/p68/pa46/c25m/c525/c25a/hdjt/glf5/glf6, 0, nswe # ja-1234, 100, be58/p46t/t206/c172/kodi/p68/pa46/c25m/c525/c25a/hdjt/glf5/glf6, 0, nswe @@ -484,11 +504,11 @@ airlines = #! jal, 600, b77w/a359, japan air, nwe #! jal, 300, a359, japan air, nsw #! jal, 300, b738, japan air, w -#! jjp, 600, a320, orange liner, w -#! jjp, 100, a320, orange liner, s -#! jjp, 100, a320, orange liner, n -#! apj, 400, a320/a20n, air peach, w -#! apj, 100, a320/a20n, air peach, n +#! jjp, 800, a320, orange liner, w +#! jjp, 200, a320, orange liner, s +#! jjp, 200, a320, orange liner, n +#! apj, 600, a320/a20n, air peach, w +#! apj, 200, a320/a20n, air peach, n #! sky, 200, b738, skymark, w #! sky, 100, b738, skymark, s #! sjo, 300, b738, j spring, w @@ -573,6 +593,7 @@ airlines = #! cxa, 100, b789, xiamen air, w #! cxa, 100, b738, xiamen air, w #! tzp, 100, b788, zipair, nwe +#! sjx, 100, a20n, star walker, w #cargo #! ana, 200, b763, all neeppon, nws #! ana, 200, b77l, all neeppon, nws @@ -626,7 +647,9 @@ airlines = db-abc, 1, c25m/c525/c25a/hdjt/glf4/glf5/glf6/lj35/lj60/glex/cl30/cl35, 0, nswe g-abcd, 1, c25m/c525/c25a/hdjt/glf4/glf5/glf6/lj35/lj60/glex/cl30/cl35, 0, nswe f-abcd, 1, c25m/c525/c25a/hdjt/glf4/glf5/glf6/lj35/lj60/glex/cl30/cl35, 0, nswe - n-123ab, 10, b737/b763/a319, 0, nswe + n-123ab, 3, b737/b763/a319, 0, nswe + bga-1, 1, a3st/a337, beluga, nswe + gti, 1, blcf, giant, nswer # ja-123a, 100, be58/p46t/t206/c172/kodi/p68/pa46/c25m/c525/c25a/hdjt/glf5/glf6, 0, nswe # ja-12ab, 100, be58/p46t/t206/c172/kodi/p68/pa46/c25m/c525/c25a/hdjt/glf5/glf6, 0, nswe # ja-1234, 100, be58/p46t/t206/c172/kodi/p68/pa46/c25m/c525/c25a/hdjt/glf5/glf6, 0, nswe @@ -659,7 +682,7 @@ entrypoints = #MERED KAMOG 135, KAMOG #KOGAR LEMUM - 330, TOHNE +# 330, TOHNE #HAGAR KIDOR 350, ASEKI @@ -10216,7 +10239,7 @@ route1 = [approach235] -runway = RJTLRWY +runway = RJTLRWY, rev beacon = OMIYA, N35.55.05.96, E139.35.48.54 route1 = @@ -10545,7 +10568,7 @@ config1 = 0, RJTTRWYD, startrev 0, RJAARWYB, landstart 0, RJAARWYA, landstart - 0, RJTLRWY, landstartrev + 45, RJTLRWY, landstartrev #South wind operation #RJTT departing 16L/16R, arriving ILS 22/ILS 23 @@ -10558,7 +10581,7 @@ config2 = 0, RJTTRWYC, startrev 0, RJAARWYB, landstartrev 0, RJAARWYA, landstartrev - 0, RJTLRWY, landstart + 45, RJTLRWY, landstart #South wind operation (afternoon) #RJTT departing 16R/22, arriving 16L/16R @@ -10570,7 +10593,7 @@ config3 = 0, RJTTRWYB, start 0, RJAARWYB, landstartrev 0, RJAARWYA, landstartrev - 0, RJTLRWY, landstart + 45, RJTLRWY, landstart #South wind operation VMC #RJTT departing 16L/16R, arriving LDA 22/LDA 23 @@ -10583,7 +10606,7 @@ config4 = 0, RJTTRWYDLDA, land 0, RJAARWYB, landstartrev 0, RJAARWYA, landstartrev - 0, RJTLRWY, landstart + 45, RJTLRWY, landstart #Calm wind operation #RJTT departing 34R/05, arriving 34L/34R @@ -10595,7 +10618,7 @@ config5 = 0, RJTTRWYD, startrev 0, RJAARWYB, landstart 0, RJAARWYA, landstart - 0, RJTLRWY, landstartrev + 45, RJTLRWY, landstartrev @@ -10608,4 +10631,7 @@ types = p3, 5, 160, 250, 2.8, 3.2, 1400, 1600, 120, 140, 1.2, 1.4, orion ys11, 5, 160, 250, 2.8, 3.2, 1400, 1600, 110, 130, 1.2, 1.4, namc kc2, 4, 150, 250, 2.8, 3.2, 1400, 1800, 110, 140, 1.3, 1.5, kawasaki - c130, 4, 140, 250, 2.8, 3.2, 1400, 1700, 110, 140, 1.3, 1.5, hercules \ No newline at end of file + c130, 4, 140, 250, 2.8, 3.2, 1400, 1700, 110, 140, 1.3, 1.5, hercules + a3st, 3, 160, 250, 2.2, 2.4, 1400, 1600, 145, 157, 1.1, 1.2, beluga + a124, 2, 160, 250, 2.2, 2.4, 1400, 1600, 145, 157, 1.1, 1.2, ruslan + blcf, 2, 160, 250, 2.2, 2.4, 1200, 1380, 142, 158, 1.1, 1.2, dreamlifter \ No newline at end of file