Aerial Combat Breakdown

Aerial Combat is one of the daytime combat intermediary phases. In this phase, the allied and enemy fleets fight each other indirectly for aerial dominance and airstrike potential, granting either fleet substantial advantages in the subsequent combat phases.

Aerial Combat has the following structure:

  • Jet Assault Phase
  • Stage 1 - Battle for Air Superiority
  • Stage 2 - Fleet Anti-Air Defense
  • Stage 3 - Airstrike

Other phases that may happen before Jet Assault Phase:

If a LBAS phase happens before the Aerial Combat phase, the enemy fleet state, such as plane slots and Fighter Power used for the subsequent Aerial Combat, is carried over. This can be used to tamper with the Enemy's Aerial Combat initial conditions. For more information, check the LBAS article.

In case neither fleets meet the requirements, the sub-phase will be skipped.

Jet Assault Phase

Planes that participate in this phase:

  •   Jet-type Fighter-Bombers

If any carriers on either side are equipped with jet-powered aircraft, the Jet Assault Phase will commence first of all. You may only commence a Jet Assault Phase during a combat where you are allowed to perform an Airstrike. The Jet Strike follows the same rules as the Stage 3 - Airstrike phase.

The defending side is allowed to defend against the Jets following the same rules as the ones from Stage 2 - Fleet AA Defense, however Jets possess increased resistance against enemy anti-air fire specifically during the Jet Assault Phase.

Jets are not excluded from the Stage 3 - Airstrike phase, but in exchange they are subject to enemy Anti-Air prior the Jet Strike, and again on Stage 2 - Fleet AA Defense.

Additionally, every time the Jet Assault Phase is triggered,   is automatically subtracted from your stockpile.

[math]\displaystyle{ \text{Jet Phase Cost} = \sum^{\text{All Jets}} \lceil \text{Slot Size} \times \text{Steel Cost} \rceil }[/math]

Steel Cost is 2.6 for Kikka Kai  and 2.8 for Jet Keiun Kai .

Stage 1 - Battle for Air Superiority

Planes that participate in this phase:

 
Green text at the bottom of the screen indicating an Air Supremacy result.

Following a possible Jet Phase, the fight for Air Supremacy will begin. The main objective of this phase is defining the Air State imposed on each fleet, by comparing each fleet's Air Power, more commonly referred to as Fighter Power (FP).

Fighter Power is defined by each plane equipped in the fleet that participates in this phase.

[math]\displaystyle{ \text{Fighter Power} = \sum^{\text{All planes}} \left(\text{AA}_\text{plane} \times \sqrt{\text{Slot Size}_\text{plane}} \right) + \text{Proficiency} }[/math]

Where:

  • [math]\displaystyle{ \text{AA}_\text{plane} }[/math] is the   stat of the plane.
  • [math]\displaystyle{ \text{Slot Size}_\text{plane} }[/math] is the number of planes in the slot prior to Stage 1's start.
  • [math]\displaystyle{ \text{Proficiency} }[/math] is the bonus granted by Aircraft Proficiency.

After Fighter Power is calculated for each fleet (FP and EFP for allied and enemy fleets, respectively), the values are compared, and Air State is determined, based on the following:

Air State Fighter Power Range Allied Planes Shot Down Enemy Planes Shot Down Airstrike Contact Artillery Spotting Night Contact
Air Supremacy (AS+)
制空権確保!
[math]\displaystyle{ \text{FP} \ge 3\text{EFP} }[/math] 3/120 - 7/120 0% - 100% Allied Only Allied Only Allied Only
Air Superiority (AS)
航空優勢!
[math]\displaystyle{ 3\text{EFP} \gt \text{FP} \ge 1.5\text{EFP} }[/math] 9/120 - 21/120 0% - 80% Allied and Enemy Allied Only Allied and Enemy
Air Parity (AP)
No text
[math]\displaystyle{ 1.5\text{EFP} \gt \text{FP} \gt \frac{2}{3}\text{EFP} }[/math] 15/120 - 35/120 0% - 60% Neither Neither Neither (Sorties)

Allied and Enemy (PvP)

Air Denial (AD)
No text
[math]\displaystyle{ \frac{2}{3}\text{EFP} \ge \text{FP} \gt \frac{1}{3}\text{EFP} }[/math] 21/120 - 49/120 0% - 40% Allied and Enemy Enemy Only Allied and Enemy
Air Incapability (AI)
制空権喪失!
[math]\displaystyle{ \frac{1}{3}\text{EFP} \ge \text{FP} }[/math] 30/120 - 70/120 0% - 10% Enemy Only Enemy Only Enemy Only

After determining it, each fleet will lose a random number of planes across all slots based on the imposed Air State.

Proportional Air State Shootdown Formulas

For each slot of the Allied Fleet:

[math]\displaystyle{ \text{Plane Loss} = \left \lfloor \text{Slot Size} \times \left[ \text{random} \left( 0, \frac{\text{Airstate}_\text{mod}}{3} \right) + \frac{\text{Airstate}_\text{mod}}{4} \right] \times 0.1 \times \text{Jet}_\text{mod} \right \rfloor }[/math]

For each slot of the Enemy Fleet:

[math]\displaystyle{ \text{Plane Loss} = \left \lfloor \text{Slot Size} * \left ( 0.035 \times \text{random} \left [ 0 , A \right ] + 0.065 \times \text{random} \left [ 0 , A \right ] \right ) \right \rfloor }[/math]

Where:

  • [math]\displaystyle{ \text{Slot Size} }[/math] is the plane's slot size.
  • [math]\displaystyle{ \text{Airstate Mod} }[/math] is the Air State modifier for each side, with:
    • [math]\displaystyle{ \text{Airstate Mod} = \begin{cases} 1, & \text{ for Air Supremacy} \\ 3, & \text{ for Air Superiority } \\ 5, & \text{ for Air Parity } \\ 7, & \text{ for Air Denial } \\ 10, & \text{ for Air Incapability } \end{cases} }[/math]
  • [math]\displaystyle{ \text{Jet}_\text{mod} }[/math] is the Jet-type aircraft modifier. Assumes 0.6 if the plane is a Jet, otherwise assumes 1.
  • The random function takes an random integer within the range in a linear distribution.

Notes:

  • Aircraft will be launched regardless of the carrier's state (except Sunk).
  • The Air States between the allied and enemy fleets are mirrored. For example, attaining AS+ imposes AI to the enemy fleet.
  • If both sides launch no planes, the Air State will be Air Parity.
  • By solely using planes with no   stat, an enemy fleet might start Air Supremacy Combat with 0 total Fighter Power.
    • In such case, the allied fleet will attain AS+ even if no planes are launched.

Stage 2 - Fleet Anti-Air Defense

Planes that participate in this phase:

Following Stage 1, the Fleet AA Defense phase allows each fleet to reduce the incoming Airstrike damage by shooting down enemy planes.

  • Each bomber is assigned to a random enemy ship.
    • Ships are picked regardless of damage state, ship class, and position in fleet have no influence.
      • Even sunk ships, or ships that cannot be targeted by airstrikes such as submarines can be chosen to defend against a given bomber.
  • When a ship defends against a bomber, it rolls two concurrent but independent events, each with 50% chance of success:
    • The first roll, denominated Proportional Shootdown, or Prop for short, reduces the slot size by a given % value.
    • The second roll, denominated Fixed Shootdown, or Fixed for short, reduces the slot size by a given X value.
    • There is therefore a chance of 25% to trigger both effects, 25% to trigger only Prop, 25% to trigger only Fixed, and 25% to trigger neither, for each bomber.

Adjusted Anti-Air

Adjusted Anti-Air is a set of values derived from each ship and the entire fleet. For a single ship, this value applies weights on different pieces of equipment to further increase its effectiveness against enemy air threats. For the fleet, this value has the objective of further increase the influence of particularly high Anti-Air ships on either side by strengthening the entire fleet's air defense performance.

Adjusted Anti-Air Formulas

For the Allied Fleet, the Ship Adjusted AA of each ship is defined by:

[math]\displaystyle{ \text{AdjAA}_\text{ship} = \text{AA}_\text{base} + \sum^{\text{All equip}} \left( \left( \text{Equip}_\text{AA} \times \text{Equip}_\text{mod} \right) + \left( \text{Equip}_\text{★} \times \sqrt{★} \right) \right) }[/math]

While the Fleet Adjusted AA is defined by:

[math]\displaystyle{ \text{AdjAA}_\text{fleet} = 1.54 \times \left \lfloor \text{Formation}_\text{mod} \times \sum^{\text{All ships}} \left \lfloor \sum^{\text{All equip}} \left( \left( \text{Equip}_\text{AA} \times \text{Equip}_\text{mod} \right) + \left( \text{Equip}_\text{★} \times \sqrt{★} \right) \right) \right \rfloor \right \rfloor }[/math]

For the Enemy Fleet, the Ship Adjusted AA of each ship is defined by:

[math]\displaystyle{ \text{AdjAA}_\text{enemy ship} = \left( 2 \times \sqrt{\text{AA}_\text{base}} + \sum^{\text{All equip}} \left( \text{Equip}_\text{AA} \times \text{Equip}_\text{mod} \right) \right) }[/math]

While the Enemy Fleet's Fleet Adjusted AA is defined by:

[math]\displaystyle{ \text{AdjAA}_\text{enemy fleet} = 2 \times \left \lfloor \text{Formation}_\text{mod} \times \sum^{\text{All ships}} \left \lfloor \sum^{\text{All equip}} \left( \text{Equip}_\text{AA} \times \text{Equip}_\text{mod} \right) \right \rfloor \right \rfloor }[/math]

Where:

  • [math]\displaystyle{ \text{AA}_\text{base} }[/math] is the base   stat of the ship (without equipment).
  • [math]\displaystyle{ \text{★} }[/math] is the improvement level for the equipment.
  • [math]\displaystyle{ \text{Equip}_\text{★mod} }[/math] is the improvement modifier for the equipment.
    • High-Angle Gun Mounts: 3
    • Air Radar: 1.5, for Fleet Adjusted AA only.
    • Anti-Air Machine Guns: 4, for Ship Adjusted AA only.
  • [math]\displaystyle{ \text{Equip}_\text{AA} }[/math] is the displayed   stat of the equipment.
  • [math]\displaystyle{ \text{Formation}_\text{mod} }[/math] is the Formation modifier.
  • [math]\displaystyle{ \text{Equip}_\text{mod} }[/math] is the equipment type modifier, with each value used in its respective formula:
Equipment Type Ship AA Modifier Fleet AA Modifier
  
High-angle Mounts, Anti-Aircraft Fire Directors
4 0.35
 
Machine Guns & Rocket Launchers
6 0.2
 
AA Radars
3 0.4
    
Main Gun, Seaplanes
0 0.2
 
Type 3 Shell
0 0.6
Other Abyssal AA Equipment
Including CIC, High-angle Single-Mount
0 0.2

Proportional and Fixed shootdowns

With the Adjusted AA values calculated, it's now possible to determine the shootdown for each ship. The same ship may defend against multiple bombers at once. For each bomber a ship defends against, it will roll an independent activation of both Prop and Fixed and then decrease the slot by the resulting values.

Shootdown Formulas

For an Allied Fleet's ship defending against Enemy planes:

[math]\displaystyle{ \text{Prop}= \left \lfloor \frac{\text{AdjAA}_\text{ship} \times \text{CF}_\text{mod}}{400} \times \text{Slot Size} \right \rfloor }[/math]

[math]\displaystyle{ \text{Fixed}= \left \lfloor \frac{ \left( \text{AdjAA}_\text{ship} + \left \lfloor \text{AdjAA}_\text{fleet} \right \rfloor \right) \times \text{CF}_\text{mod} \times \text{K}_\text{value}}{10} \right \rfloor }[/math]

For an Enemy Fleet's ship defending against Allied planes:

[math]\displaystyle{ \text{Prop}= \left \lfloor \frac{\left \lfloor \text{AdjAA}_\text{enemy ship} \times \text{AA Resist}_\text{ship} \right \rfloor}{400} \times \text{Slot Size} \right \rfloor }[/math]

[math]\displaystyle{ \text{Fixed}= \left \lfloor \frac{ \left \lfloor \text{AdjAA}_\text{enemy ship} \times \text{AA Resist}_\text{ship} + \text{AdjAA}_\text{enemy fleet} \times \text{AA Resist}_\text{fleet} \right \rfloor}{10.6} \right \rfloor }[/math]

Where:

  • [math]\displaystyle{ \text{AdjAA} }[/math] are the previously calculated Adjusted AA values.
  • [math]\displaystyle{ \text{Slot Size} }[/math] is the attacking plane's slot size.
  • [math]\displaystyle{ \text{CF}_\text{mod} }[/math] is the Combined Fleet modifier.
    • Assumes 1 if Single Fleet.
    • 0.72 if the ship is in Combined Fleet's main fleet, 0.48 if the ship is in the Combined Fleet's escort fleet.
  • [math]\displaystyle{ \text{K}_\text{value} }[/math] is the Anti Air Cut-in (AACI) multiplier.
    • Assumes 1 if no AACI triggers.
  • [math]\displaystyle{ \text{AA Resist}_\text{ship} }[/math] is the attacking plane's Ship AA Resist.
  • [math]\displaystyle{ \text{AA Resist}_\text{fleet} }[/math] is the attacking plane's Fleet AA Resist.

Anti-Air Resistance

Specific planes, in particular skilled variants, remarkable aces or state-of-the-art aircraft may present a special AA resistance property. AA resistance is presented in form of "Ship AA Resistance/Fleet AA Resistance", with each value being used in the respective above formulas.

This property is arbitrary to each aircraft, but loosely fit in the following categories:

  • Extremely high resistance: Aircraft that presents a resistance of 0.5/0.5
  • High resistance: Aircraft that presents a resistance of 0.5/0.7
  • Average resistance: Aircraft that presents a resistance of 0.6/0.7
  • Low resistance: Aircraft that presents a resistance of 0.6/1.0
AA Resist Planes
Plane Air State Modifier Ship AA Modifier Fleet AA Modifier
   Torpedo Bombers
Type 97 Torpedo Bomber (Tomonaga Squadron)  1 0.6 1
Tenzan Model 12 (Tomonaga Squadron)  1 0.6 1
Type 97 Torpedo Bomber (Murata Squadron)  1 0.6 1
Tenzan Model 12 (Murata Squadron)  1 0.6 1
Tenzan Model 12A Kai (Skilled w/ Type 6 Airborne Radar Kai)  1 0.6 1
Ryuusei Kai (CarDiv 1/Skilled)  1 0.6 1
  Dive Bombers
Type 99 Dive Bomber (Egusa Squadron)  1 0.6 1
Suisei (Egusa Squadron)  1 0.6 0.7
Zero Fighter Model 62 (Fighter-bomber / Iwai Squadron)  1 0.6 0.7
Suisei Model 12 (634 Air Group w/ Type 3 Cluster Bombs)  1 0.6 1
Suisei Model 12 (w/ Type 31 Photoelectric Fuze Bombs)  1 0.6 1
  Seaplane Bombers
Zuiun (634 Air Group)  1 0.6 1
Zuiun Model 12  1 0.6 1
Zuiun Model 12 (634 Air Group)  1 0.6 0.7
Zuiun (634 Air Group/Skilled)  1 0.6 0.7
Zuiun Kai Ni (634 Air Group)  1 0.5 0.7
Zuiun Kai Ni (634 Air Group/Skilled)  1 0.5 0.5
   Jet-type Aircraft
Jet Keiun Kai  0.6 0.5 0.7
Kikka Kai  0.6 0.5 0.5
   Land-based Aircraft
Type 1 Land-based Attack Aircraft (Nonaka Squadron)  1 0.6 1
Bomb-carrying Type 1 Fighter Hayabusa Model III Kai (65th Squadron)  1 0.6 0.7
Ginga (Egusa Squadron)  1 0.6 1
Type 4 Heavy Bomber Hiryuu (Skilled)  1 0.6 1
Do 217 E-5 + Hs293 Initial Model  1 0.6 1
Do 217 K-2 + Fritz-X  1 0.6 1

Anti-Air Cut-in

 
Akizuki performing the API 1 (BBR) AACI.

Using special equipment setups, ships may perform one of multiple special anti-air maneuvers during Stage 2. These moves are often referred to as AA Cut-ins, or AACI due to the way the equipment is displayed in the screen before they are performed. Particular AACI are often referred to by their acronym, such as BBR for AACI 5.

AACI grants a multiplier to the Fixed Shootdown of all Allied Fleet ships regardless of what ship uses it, referred to as K-value. On top of that effect, AACI will remove a fixed number of planes from each enemy bomber slot. These effects make depleting the entirety of enemy bombers much more feasible.

Although several ships can be equipped with a proper AACI setup, only one ship can perform an AACI. If Stage 2 happens multiple times, like in an Air Battle node, then each Air Phase's Stage 2 might roll an AACI.

If the enemy fleet has a valid setup, it may as well activate an AACI. If that happens, an animation will not be shown, but the effects will function normally.

The trigger chance of a given AACI is solely determined by its API value, and is arbitrary. Fleet AA, Ship AA, Adjusted AA, Air State or any other parameter like Luck and LoS have no bearing in AACI trigger rates. Most trigger chances were datamined from KanColle Vita, and tests in the Browser version corroborated the results.

  •   is a custom icon used to indicate a Built-in AAFD High-angle Gun.
    • The   can be a Main Gun or Secondary Gun.
    • Any High-angle Gun with   stat of 8 or higher is considered a Built-in AAFD High-angle Gun, even if not explicitly stated by the game.
  •   is a custom icon used to indicate a Concentrated Deployment Machine Gun (also written as CDMG).
    • Any Machine Gun with   stat of 9 or higher is considered a CDMG, even if not explicitly stated by the game.
  •   is used to indicate an Air Radar.
    • Any Radar with   stat of 2 or higher is considered an Air Radar, even if not explicitly stated by the game.

AACI Patterns
API value Type Shot down
per slot
K-value Rate User Notes
None - +1 1.0 N/A Player's fleet only Triggers if no other AACI is activated
1 HHR
   
+8 1.7 65% Akizuki-Class 
 
 
 
HA mount x2 + Radar
2 HR
  
+7 1.7 58% HA mount + Radar
3 HH
  
+5 1.6 50% HA mount x2
4 MSAR
    
+7 1.5 52% Battleships Large Main Gun + Sanshiki + AAFD + Air Radar
5 BBR
   
+5 1.5 55% All Built-in HA mount x2 + Air Radar
6 MSA
   
+5 1.45 40% Battleships Large Main Gun + Sanshiki + AAFD
7 HAR
   
+4 1.35 45% All HA mount + AAFD + Air Radar
8 BR
  
+5 1.4 50% Built-in HA mount + Air Radar
9 HA
  
+3 1.3 40% HA mount + AAFD
10 HCR
   
+9 1.65 60% Maya Kai Ni  HA + CDMG + Air Radar
11 HC
  
+7 1.5 55% HA + CDMG
12 CGR
   
+4 1.25 45% All CDMG + AA Gun + Air Radar
13 Cannot be activated:

   

+4 1.35 35% All except Maya Kai Ni  Built-in HA mount + CDMG + Air Radar
14 HGR
   
+5 1.45 62% Isuzu Kai Ni  HA + AA Gun + Air Radar
15 HG
  
+4 1.3 55% HA + AA Gun
16 HGR
   
+5 1.4 62% Kasumi Kai Ni B 
Yuubari Kai Ni  (not Toku /D )
HA + AA Gun + Air Radar
17 HG
  
+3 1.25 55% Kasumi Kai Ni B  HA + AA Gun
18 C
 
+3 1.2 60% Satsuki Kai Ni  CDMG
19 HC
  
+6 1.45 58% Kinu Kai Ni  HA + CDMG
(Cannot be Built-in HA)
20 C
 
+4 1.25 65% CDMG
21 HR
  
+6 1.45 60% Yura Kai Ni  HA + Air Radar
22 C
 
+3 1.2 60% Fumizuki Kai Ni  CDMG
23 G
 
+2 1.05 80% UIT-25/I-504 
 
AA Gun (Cannot be CDMG)
24 HG
  
+4 1.25 40% Tatsuta Kai Ni  HA + AA Gun (Cannot be CDMG)
25 GRS
   
+8 1.55 60% Ise-class Kai/Kai Ni 
 
 
 
12cm 30-tube Rocket Launcher Kai Ni  + Air Radar + Sanshiki 
26 HR
  
+7 1.4 55% Musashi Kai Ni  10cm Twin HA Mount Kai  + Air Radar
27 Unknown
28 GR
  
+5 1.4 55% Ise-class Kai/Kai Ni 
 
 
 
&
Musashi Kai Ni 
12cm 30-tube Rocket Launcher Kai Ni  + Air Radar 
29 HR
  
+6 1.55 60% Hamakaze B Kai  &
Isokaze B Kai 
HA + Air Radar
Using Built-in HA mounts has a high chance to proc AACI 5/8 instead.
30 HHH
   
+4 1.3 45% Tenryuu Kai Ni  &
Gotland Kai/Andra 
 
HA + HA + HA
31 HH
  
+3 1.2 52% HA + HA
32
 
16inch Mk.I Triple Gun Mount Kai + FCR Type 284
 
QF 2-pounder Octuple Pom-pom Gun Mount

OR
 
20-tube 7inch UP Rocket Launchers
 
20-tube 7inch UP Rocket Launchers

OR
 
20-tube 7inch UP Rocket Launchers
 
QF 2-pounder Octuple Pom-pom Gun Mount
+4 1.2 50% Royal Navy Ships 
 
 
 
 
&
Kongou-class Kai Ni 
 
 
 
16inch Mk.I Triple + FCR  + QF 2-pounder 
OR
20-tube 7inch UP  + 20-tube 7inch UP  / QF 2-pounder 
33 HG
  
+4 1.35 45% Gotland Kai/Andra 
 
HA + AA Gun
34
 
5inch Single Gun Mount Mk.30 Kai + GFCS Mk.37
 
5inch Single Gun Mount Mk.30 Kai + GFCS Mk.37
+8 1.6 55% Fletcher-Class 
 
35
 
5inch Single Gun Mount Mk.30 Kai + GFCS Mk.37
 
5inch Single Gun Mount Mk.30
+7 1.55 55% The Kai  variant can also be used in place of the Base  variant.
36
 
5inch Single Gun Mount Mk.30
 
5inch Single Gun Mount Mk.30
 
GFCS Mk.37
+7 1.55 50%
37
 
5inch Single Gun Mount Mk.30 Kai
 
5inch Single Gun Mount Mk.30 Kai
+5 1.45 40% Both HA guns must be Kai  variant.
38 Unknown
39
 
GFCS Mk.37 + 5in Dual Purpose Gun (CD)
 
5in Dual Purpose Gun (CD)
+11 1.7 57% Atlanta-class 
40
 
5in Dual Purpose Gun (CD)
 
5in Dual Purpose Gun (CD)
 
GFCS Mk.37
+11 1.7 56% The GFCS+5inch(CD)  variant of the gun can also be used.
41
 
5in Dual Purpose Gun (CD)
 
5in Dual Purpose Gun (CD)
+10 1.65 55%

Notes:

  • If a ship fulfils multiple AACI requirements, the API with the highest priority will be checked first.
    • A single roll is done to check for all AACIs. This means that an AACI with lower priority but higher trigger rate can be activated.
      • The opposite cannot occur.
    • For example, Akizuki with a     setup fulfills the requirements of the AACIs with API values 1, 2, 3, 5 and 8, with 1 being the highest priority. Due to this, the only API that Akizuki can trigger is 1, because a success will activate it, and a failure implies that the roll wouldn't meet the 58%, 50%, 55% and 50% trigger rates as it has failed to meet a 65% rate roll.
  • AACI priority is not completely determined, but some have been observed:
    • 8 has a lower priority than 7, as both can be triggered by the same ship.
    • Kinu Kai Ni can trigger both API 20 and 19.
    • The same ship can activate APIs 20, 5 and 29.
  • If multiple ships trigger AACI, the ship that rolled the highest API number takes priority.

Sequential AACIs

The Sequential AACIs are the Cut-ins introduced with the implementation of Johnston onwards. So far, they are exclusive to the Fletcher-Class 
 
and Atlanta-class . Different from Original AACIs, from lowest to highest API, each eligible AACI will be rolled independently if the previous roll has failed. If all Sequential rolls fail, an additional Original Type roll is performed. This grants the specific ships with access to Sequential AACIs extremely high trigger rates.

Sequential AACIs are APIs 34, 35, 36, 37, 39, 40 and 41.

Stage 3 - Airstrike

Planes that participate in this phase:

With both preliminary phases executed, the final Aerial Combat Stage, Airstrike, is performed. In this phase, each bomber from the Allied Fleet and Enemy Fleet that still possess a slot size higher than 0 selects a ship to attack. The attack target is randomly picked following the same rules as Shelling target selection. The targeted ship is not necessarily the ship that has defended against said bomber during Stage 2.

Notes:

  • Each bomber is assigned to a single ship and performs exactly one attack. The same ship may be selected to be attacked by multiple different bombers.
  • The attack is unaffected by the battle's Engagement and the Fleet's Formation, as well as the Carrier's morale and damage state.
  • Submarines are untargetable by Airstrike

Contact

 
Tenzan Model 12 (Murata Squadron) performing Contact against the Enemy Fleet.

Contact is a special mechanic that increases the damage of all bombers participating in the Airstrike Phase. Specifically, it may be triggered during Stage 1, but has no effects until Stage 3. When successful, the Squadron performing Contact will be shown on top of the opposing fleet's "Radar", together with the text Making contact! (触接中!, shokusetsu-chū!).

  • Contact may be triggered only under specific Air States.
  • At least one Carrier-based  Reconnaissance Aircraft,  Reconnaissance Seaplane, or  Torpedo Bomber must be present.
    •  Seaplane Bombers cannot perform contact.

Step 1: Contact Trigger

Each plane that can perform Contact has an independent trigger rate based on the plane's   stat, type, and slot size. The Final Trigger Rate is equal to the sum of all independent trigger rates.

Contact Trigger Rate Formula

[math]\displaystyle{ \text{Contact Rate}= \sum^{\text{All planes}} \left( \sqrt{\text{Slot Size}} \times \text{Plane}_\text{LoS} \times \text{Plane}_\text{mod} \times \text{Air State}_\text{mod} \right) }[/math]

Where:

  • [math]\displaystyle{ \text{All planes} }[/math] refer specifically to all planes that can perform Contact (   and  Recon).  Bomber cannot perform contact.
  • [math]\displaystyle{ \text{Slot Size} }[/math] is the plane's slot size.
  • [math]\displaystyle{ \text{Plane}_\text{LoS} }[/math] is the plane's displayed   stat.
  • [math]\displaystyle{ \text{Plane}_\text{mod} }[/math] is the plane's type modifier.
    • Assumes 0.04 if the plane is a   or  Recon.
    • Assumes a much smaller value if the plane is a  .
  • [math]\displaystyle{ \text{Air State}_\text{mod} }[/math] is the Air State modifier.
    • Assumes 1 for AS+, 0.6 for AS.

A single roll is performed using the Final Trigger Rate. If successful, Contact advances to Step 2.

Step 2: Aircraft Selection

After a successful Step 1, each plane will roll a Selection rate to be allowed to perform contact. The rolls are performed for each plane independently following a set priority, from highest to lowest. The priority for Aircraft Selection is:

  •   stat, starting from highest.
  • The Carrier's position in the fleet, starting from Flagship.
  • The Equipment slot position, starting from the first.
Aircraft Selection Formula

[math]\displaystyle{ \text{Selection Rate}= \text{Plane}_\text{LoS} \times \text{Air State}_\text{mod} }[/math]

Where:

  • [math]\displaystyle{ \text{Plane} }[/math] refer specifically to a planes that can perform Contact (   and  Recon).  Bomber cannot perform contact.
  • [math]\displaystyle{ \text{Plane}_\text{LoS} }[/math] is the plane's displayed   stat.
  • [math]\displaystyle{ \text{Air State}_\text{mod} }[/math] is the Air State modifier.
    • Assumes 0.07 for AS+, 0.06 for AS, and 0.055 for AD.

The first Squadron that succeeds to be selected will perform Contact. If all planes fail to be selected, Contact will not trigger, even if Step 1 was successful.

If successful, then Contact will grant an additional damage multiplier based on the selected aircraft's   stat.

Accuracy Damage
Modifier
Example Planes
+0 112% Ryuusei Kai
+1 112% Type 0 Recon Seaplane, Ryuusei (601 Air Group), Type 2 Flying Boat
+2 117% Type 0 Observation Seaplane, Saiun, PBY-5A Catalina, Prototype Keiun
+3 or more 120% Type 2 Recon Aircraft, Tenzan Model 12 (Tomonaga Squadron), Type 97 Torpedo Bomber (Tomonaga Squadron)

Anti-Air Rocket Barrage

 
Ise successfully triggers AARB, while Choukai triggers a Type 3 Shell barrage, during Airstrike Stage.

Certain classes of ships have the ability to completely negate airstrike damage when certain conditions are fulfilled.

The trigger rate is given by:

[math]\displaystyle{ \text{AARB %} = \frac{\text{AdjAA}_\text{ship} \times \text{Luck}}{281} + \left( \text{N}_\text{rocket} - 1 \right) \times 15 + \text{Mod}_\text{Ise-class} }[/math]

Where:

  • [math]\displaystyle{ \text{AdjAA}_\text{ship} }[/math] is the previously calculated Adjusted AA of the ship.
  • [math]\displaystyle{ \text{Luck} }[/math] is the ship's   stat.
  • [math]\displaystyle{ \text{N}_\text{rocket} }[/math] is the number of 12cm 30-tube Rocket Launcher Kai Ni .
  • [math]\displaystyle{ \text{Mod}_\text{Ise-class} }[/math] is the Ise-class bonus of [math]\displaystyle{ 25 }[/math].

When triggered, the ship will slide forward and Rocket Barrage Successful (噴進弾幕成功, funshindan maku seikō) will be displayed over the ship's card.

Notes: