The salvo combat model provides a mathematical representation of

anti-ship missile An anti-ship missile (AShM) is a guided missile that is designed for use against ships and large boats. Most anti-ship missiles are of the sea skimming variety, and many use a combination of inertial guidance and active radar homing. A goo ...

battles between modern

warship A warship or combatant ship is a naval ship that is built and primarily intended for naval warfare. Usually they belong to the armed forces of a state. As well as being armed, warships are designed to withstand damage and are usually faster ...

s. It was developed by Wayne Hughes at the U.S. Naval Postgraduate School in Monterey, California, and published in 1995. The salvo model describes the basic elements of modern missile combat in a very simple manner. This is similar to how Lanchester's square law provides a simple model of modern gun combat.

Model parameters

Basic form

Suppose that two naval forces, Red and Blue, are engaging each other in combat. The battle begins with Red firing a salvo of missiles at Blue. The Blue ships try to shoot down those incoming missiles. Simultaneously, Blue launches a salvo that Red tries to intercept. This exchange of missile fire can be modeled as follows. Let symbol ''A'' represent the number of combat units (warships or other weapon platforms) in the Red force at the beginning of the battle. Each one has ''offensive firepower α'', which is the number of offensive missiles accurately fired per salvo at the enemy. Each one also has ''defensive firepower y'', which is the number of incoming enemy missiles intercepted per salvo by its active defenses. Each ship has ''staying power w'', which is the number of enemy missile hits required to put it out of action. Equivalently, one could say that each attacking missile can cause damage equal to a fraction ''u=1/w'' of a Red ship. The Blue force is represented in a similar manner. Blue has ''B'' units, each with offensive firepower ''β'', defensive firepower ''z'', and staying power ''x''. Each missile that hits will cause damage ''v=1/x''. The salvo combat model calculates the number of ships lost on each side using the following pair of equations. Here, ''ΔA'' represents the change in the number of Red's ships from one salvo, while ''ΔB'' represents the change in the number of Blue ships. :''ΔA = -(βB - yA)u'', subject to ''0 ≤ -ΔA ≤ A'' :''ΔB = -(αA - zB)v'', subject to ''0 ≤ -ΔB ≤ B'' Each equation starts by calculating the total number of offensive missiles being launched by the attacker. It then subtracts the total number of interceptions by the defender. The number of remaining (non-intercepted) offensive missiles is multiplied by the amount of damage caused per missile to get the total amount of damage. If there are more defensive interceptions than offensive missiles, then the total damage is zero; it cannot be negative. These equations assume that each side is using aimed fire; that is, a force knows the location of its target and can aim its missiles at it. If however a force knows only the approximate location of its target (e.g., somewhere within a fog bank), then it may spread its fire across a wide area, with the hope that at least some of its missiles will find the target. A different version of the salvo equations is required for such area fire. Mathematically, the salvo equations can be thought of as difference equations or

recurrence relations In mathematics, a recurrence relation is an equation according to which the nth term of a sequence of numbers is equal to some combination of the previous terms. Often, only k previous terms of the sequence appear in the equation, for a parameter ...

. They are also an example of

operations research Operations research ( en-GB, operational research) (U.S. Air Force Specialty Code: Operations Analysis), often shortened to the initialism OR, is a discipline that deals with the development and application of analytical methods to improve decis ...

. A stochastic (or probabilistic) version of the model also exists. In this version, the ship parameters listed above are random variables instead of constants. This means that the result of each salvo also varies randomly. The stochastic model can be incorporated into a computer spreadsheet and used instead of the

Monte Carlo method Monte Carlo methods, or Monte Carlo experiments, are a broad class of computational algorithms that rely on repeated random sampling to obtain numerical results. The underlying concept is to use randomness to solve problems that might be determi ...

of computer simulation. An alternative version of this model exists for situations where one side attacks first, and then the survivors (if any) on the other side counter-attack, such as at the

Battle of Midway The Battle of Midway was a major naval battle in the Pacific Theater of World War II that took place on 4–7 June 1942, six months after Japan's attack on Pearl Harbor and one month after the Battle of the Coral Sea. The U.S. Navy under ...

Relation to Lanchester's laws

The salvo equations are related to Lanchester's Square Law equations, with two main differences. First, the basic salvo equations form a discrete time model, whereas Lanchester's original equations form a continuous time model. Cruise missiles typically are fired in relatively small quantities. Each one has a high probability of hitting its target, if not intercepted, and carries a relatively powerful warhead. Therefore, it makes sense to model them as a discrete pulse (or salvo) of firepower. By comparison, bullets or shells in a gun battle are typically fired in large quantities. Each round has a relatively low chance of hitting its target, and does a relatively small amount of damage. Therefore, it makes sense to model them as a small but continuous stream of firepower. Second, the salvo equations include defensive firepower, whereas Lanchester's original equations include only offensive firepower. Cruise missiles can be intercepted (shot down) by active defenses, such as surface-to-air missiles and anti-aircraft guns. By comparison, it is generally not practical to intercept bullets and shells during a gun battle.

Scenarios and tactics

Types of warfare

The salvo model primarily represents naval missile battles, such as those that occurred during the Falklands War. Offensive firepower represents anti-ship cruise missiles such as the

Harpoon A harpoon is a long spear-like instrument and tool used in fishing, whaling, sealing, and other marine hunting to catch and injure large fish or marine mammals such as seals and whales. It accomplishes this task by impaling the target animal ...

, the

Exocet The Exocet () is a French-built anti-ship missile whose various versions can be launched from surface vessels, submarines, helicopters and fixed-wing aircraft. Etymology The missile's name was given by M. Guillot, then the technical director ...

and the Styx. Defensive firepower represents air defense missiles such as the

Standard Standard may refer to: Symbols * Colours, standards and guidons, kinds of military signs * Standard (emblem), a type of a large symbol or emblem used for identification Norms, conventions or requirements * Standard (metrology), an object th ...

, as well as anti-aircraft guns such as the

Phalanx The phalanx ( grc, φάλαγξ; plural phalanxes or phalanges, , ) was a rectangular mass military formation, usually composed entirely of heavy infantry armed with spears, pikes, sarissas, or similar pole weapons. The term is particularly ...

. However, one can adapt the model to other kinds of battles having similar characteristics. For example, some authors have used it study World War II battles between aircraft carriers, such as the Battle of the Coral Sea. In this case, the offensive firepower consists of dive bombers and torpedo bombers. The defensive firepower consists of fighter aircraft that try to intercept those bombers. The model could instead describe battles where torpedoes are the main form of offensive firepower, such as in the

Battle of Savo Island The Battle of Savo Island, also known as the First Battle of Savo Island and, in Japanese sources, as the , and colloquially among Allied Guadalcanal veterans as the Battle of the Five Sitting Ducks, was a naval battle of the Solomon Islands cam ...

. In this case, the defensive firepower would be zero, since so far there is no effective way to intercept torpedoes. A simplified version of the model was used to study alternative outcomes of the Charge of the Light Brigade by British cavalry against Russian cannon in 1854. The model has also been modified to represent tactical ballistic missile defense. This variant was used to analyze the performance of the

Iron Dome Iron Dome ( he, כִּפַּת בַּרְזֶל, Kippat Barzel) is a mobile all-weather air defense system developed by Rafael Advanced Defense Systems and Israel Aerospace Industries. The system is designed to intercept and destroy short- ...

missile defense system during 2012's

Operation Pillar of Defense In November 2012, the Israel Defense Forces launched Operation Pillar of Defense ( he, עַמּוּד עָנָן, ''ʿAmúd ʿAnán'', literally: "Pillar of Cloud") which was an eight-day campaign in the Hamas-governed Gaza Strip, which bega ...

Development of tactics

The salvo combat model can help with research on a variety of issues in naval warfare. For example, one study examined the value of having accurate information about an enemy fleet. Another study examined how many missiles would be required to achieve a desired probability of success when attacking several targets at once. Researchers have also analyzed the mathematical properties of the model itself. The initial goal of such research is to get a better understanding of how the model works. A more important objective is to see what the model might suggest about the behavior of real missile battles. This could help with the development of better modern naval tactics for attacking with and defending against such missiles.

References

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