The Common Support Aircraft (CSA) is a proposed concept, which has been considered by the United States Navy since at least the early 1990s, to replace a number of different fixed-wing aircraft capable of operating from an aircraft carrier and which serve a "support" function, with a single type of aircraft or aircraft platform able to perform all support tasks.

Current roles deemed "support" by the Navy include: Carrier on-board delivery (COD), electronic surveillance (ES), electronic warfare (EW), and Airborne Early Warning (AEW), and perhaps also anti-submarine warfare (ASW), and anti-surface warfare (ASUW). Another possible support role for a carrier-based aircraft is that of aerial refueling. Fighter, bomber, and [ground] attack roles are not considered "support".

Current carrier-based fixed-wing support aircraft used by the United States Navy, and which would presambly be replaced by the CSA, include:

the C-2 Greyhound, for COD;

the S-3 Viking, for ASW, ASUW, and aerial refueling;

the EA-6 Prowler, for EW;

and the E-2 Hawkeye, for AEW.

Other support aircraft used by the US Navy in the recent past include:

the ES-3 Shadow, for ES.

The Case for a CSA

A major rationale for the CSA is cost. Using one aircraft or aircraft platform for many or all support functions; rather than several different aircraft, would permit cost savings in a number of ways.

The first would be in economies of scale in manufacturing. With a lower per-unit cost for each support aircraft and its spare sparts, the expense of purchasing the support aircraft (as well as maintaining it over the course of its lifespan) is reduced.

Another cost saving would be in reduced training expenses. Maintenance crewmen would only have to be trained for one support aircraft, rather than many.

Still another would be in reduced logistical requirements. With the same spare part, such as an engine, avionics component, tire, and so on able to be used for aircraft used for multiple roles, either fewer total spare parts could be brought on board, or the same-sized pool of spare parts could be applied to any support aircraft, giving the crew more options.

Furthermore, in a constrained environment such as a budget crunch or emergency battle damage control, cannibalization of some support aircraft to keep others flying and functional is a greater possibility.

For these reasons, the US armed forces as a whole are moving toward vehicles and weapons platforms that are generalists rather than specialists, capable of performing a wide variety of missions, or serving as a base from which variants can be produced to fill specialized roles.

Examples include the replacement of many different aircraft by the F-35 Joint Strike Fighter; and the production of the Stryker armored vehicle, which serves as a base for a wide variety of variants.

It may be noted that the Navy is already some steps toward a CSA, rather than having a completely different and separate aircraft type for each support mission. The C-2 Greyhound is a derivative of the E-2 Hawkeye, and the two aircraft have significant parts commonality. The ES-3 Shadow was a derivative of the S-3 Viking. And the S-3 Viking fills at least three different roles, not just one.

The Navy seems to favor the role of EW to filled by converted attack aircraft. The EA-6 Prowler, based on the A-6 Intruder, is slated to be replaced by the EA-18G Growler, based on the F/A-18E/F Super Hornet. (Also note the U.S. Air Force's EF-111 Raven EW aircraft, based on the F-111 Aardvark fighter-bomber.) Furthermore, the Super Hornet is also capable of serving as an aerial refueler for other Super Hornets. While these airframes were not designed in advance for the support role, their use is nontheless evidence that the US military prefers versatility and multi-capability in its vehicles, and to avoid designing a new platform for each possible role unless it is necessary.

Such trends would seem to point toward adopting the CSA as in line with current policy priorities and needs.

Arguments Against a CSA

Some potential arguments against the CSA would include:

Developing modern military aircraft, particularly carrier aircraft, is an expensive process, and the cost of creating a new aircraft to serve as a CSA may substantially erode or entirely eliminate the cost savings that commonality provides;

Current support aircraft are serving well, and in many cases are years away from their expected end of service. Therefore there is not only no need to replace current aircraft, but doing so would in fact be wasting money because the full benefit of current aircraft has not been realized yet. Furthermore, when current aircraft are considered worn out, more of the same could perhaps be manufactured as replacements;

The design compromises involved in creating such a generalized, multi-purpose aircraft risk creating a "jack of all trades and master of none"; a plane that can do many things, but none of them particularly well, and perhaps not as well as the planes it replaces.

Conclusion and Future Prospects

The Navy is still studying the CSA idea, but has not commited to it. The impending introduction of the EF-18 Growler may be a sign that it is leaning against it; or perhaps simply that the CSA, if adopted, will not be filling the EW role.

External Links

CSA Designs

Chimera

Wombat & Joey

Crossbow

Penguin

Other Links

Federation of American Scientists