Droneships? Here's a Solution to Navy Personnel Problems

FILE PHOTO: A view of the flight deck of USS Blue Ridge (LCC 19), flagship of the U.S. Navy's 7th Fleet, is seen at Changi Naval Base in Singapore May 9, 2019. REUTERS/Edgar Su/File Photo
July 27, 2020 Topic: Security Region: Americas Blog Brand: The Reboot Tags: UUVU.S. NavyAutonomous WeaponsDronesPacific

Droneships? Here's a Solution to Navy Personnel Problems

There is a need for small, lightly manned warships to streamline that transition and fill roles which require a human crew.

by CIMSEC
 

A boat launch facility is very important for a variety of maritime security operations and general utility tasks including allowing access to unimproved coastlines. Thanks to this utility and their modest space and weight impact, they are found on many small warships. It is also important to note that a boat launch facility can generally launch USVs of similar size if desired to perform a variety of functions including acting as offboard sensors and decoys.

While the utility of naval helicopters is well established, they are relatively uncommon on small warships. Adding full aviation facilities requires a major increase in ship size, crew, and cost. Even a simple helipad for vertical replenishment has a major impact on topside configuration. Furthermore, helicopters are relatively visible and can thus make it much easier for an adversary to distinguish the warship from civilian traffic.

 

A much more common way of providing aerial surveillance for small warships is small UAVs. Because they can easily be added to existing ships, they have become common additions to small military and coast guard vessels worldwide. These aircraft provide many of the benefits of a helicopter with a much lower signature and little to no design impact on the ship. Furthermore, considering their proliferation in the civil sector, launching a small UAV is no longer a recognizably military activity. It is reasonable to assume all future designs will at least consider the operation of hand-launched drones, and it is highly likely many will also integrate launch systems for larger assets as well.

While UUV launch facilities are currently relatively rare outside dedicated MCM platforms, the maturation of this technology makes it worthy of more general consideration. UUVs could perform a range of other missions including undersea search and interacting with undersea cables without the need to specialize the ship itself. Furthermore, the launch facilities could also be used to transport additional MCM UUVs for use by other ships. As such, it seems likely this capability will proliferate since the launch facilities aren’t especially large, although it is still too early to say for certain exactly how useful it will actually be.

For the U.S. Navy, the only truly critical launch capability is small UAVs to enable over-the-horizon surveillance and targeting. Our enduring presence requirement means we will almost certainly want some form of boat launch capability to support those missions. We may want UUV launch capability as well, but it likely does not meet the bar to be a minimum requirement. 

Minimum Requirements for a Small American Warship

Based on the above discussion and a few common practices, the list below provides a reasonable set of approximate minimum requirements for any small American warship. Note that this is not our final design, but a simplified interpretation using current technology and standard design practices:

  • Eight LRASMs
  • SeaRAM
  • Latest generation full-sized AN/SLQ-32 electronic warfare suite
  • Standard decoy launchers
  • Excellent optical sensor suite:
    • Visible Distributed Aperture System (DAS)
    • IR DAS
    • Visible/IR camera turret
  • Maximum affordable acoustic signature reduction
  • Appropriate reduction of other signatures to blend into civilian traffic
    • COTS navigation radar
  • Low probability of detection/intercept datalinks
  • 30-knot speed (approx.)
  • 7500+ nautical mile range
  • One 7m RHIB
  • Small UAV storage and launch accommodations
  • Traditional light gun armament
    • One 30mm autocannon
    • Two M2 Browning heavy machine guns

It has been assumed that the likely boat launch facility is included while the more tentative UUV launch facility has been omitted. The range was selected to allow the ship to sortie from one island chain to the next and back (e.g. Guam to the Philippines) on internal fuel, and it also makes it relatively easy to operate over even longer distances using extra fuel bladders and/or limited refueling. Speed is not exact since small changes wouldn’t have a major impact, and no attempt was made to identify a displacement or crew complement because it is not immediately relevant to this example.

While the above requirements are obviously distinct from any current design, they should be immediately recognizable as the rough outline for a fairly conventional small warship tailored to the needs of the United States Navy. More work would obviously need to be done to refine this into a finalized set of requirements, but it is close enough to analyze how this conventional design compares to other hypothetical budget priorities and show why we did not simply settle for this minimum configuration.

‘Adequate’ is Not Enough

In any discussion of hypothetical designs, it is critical to keep key alternatives and counterarguments in mind. In the case of small warships, the most relevant argument that might be presented is that aircraft can do the job better. This can take many forms of varying strength, but attacking a weaker form undermines the discussion. Thus, a hypothetical, purpose-built, bomber-like anti-ship aircraft will be considered here. The comparison with the aircraft described in this section will be used to demonstrate the shortcomings of the ‘adequate’ warship described above and set up a discussion of how to make it worthwhile.

 

This hypothetical aircraft would be a large, stealthy flying wing built using technology from the F-35. Using these electronics eliminates much of the cost of new development and eases maintenance by sharing logistics between this hypothetical anti-ship aircraft and the F-35. In addition, the new low-maintenance stealth coatings will eliminate the headaches of older designs like the B-2, and the design would be further simplified since its mission doesn’t require extreme stealth. It only needs to be able to attack hostile warships before they can detect it, which is not particularly challenging given the range of LRASM and the sensor performance inherited from the F-35. Thus, the cost should be relatively low.

For the sake of argument, it will be assumed this aircraft costs $300 million and carries 24 LRASMs, although better numbers may be possible. This compares cleanly with the small warship which would cost a little under $100 million and carry 8 LRASMs, so the cost per missile carried is approximately the same and we can focus on other performance parameters.

The ship has three key advantages: persistence, presence, and attritability. The first two stem from the obvious fact that a ship can loiter much longer than an aircraft, which makes it better for keeping weapons on-station in wartime or demonstrating American interest by performing a variety of low-end missions in peacetime. The third stems from the fact that we can afford three ships for the price of one aircraft, so an equal investment will provide more ships and losing one costs less, assuming the crew is recovered. While attritability is a benefit in a high-end war, the peacetime flexibility provided by the enhanced persistence and presence is less of a concern in the current geopolitical environment. Finally, this ship may be able to provide some amphibious lift for small USMC units operating under their Expeditionary Advanced Base Operations (EABO) concept, although its inability to provide meaningful fire support will limit its utility if an island is contested.

In contrast, the aircraft has numerous wartime advantages. The obvious speed advantage means the aircraft can respond to a developing situation and rearm much faster than ships. This further combines with its altitude to allow a single aircraft to survey a much wider area than the three ships can in spite of their persistence advantage. Furthermore, its combination of long detection range and stealthy airframe means the aircraft is more likely to see hostile warships before they see it, providing a major advantage over ships with respect to survivability and firing effectively first. Finally, thanks to its F-35 architecture, the aircraft will be compatible with a wide range of standard ordinance like the AGM-158 JASSM, AIM-120 AMRAAM, AGM-88 HARM, GBU-39 SDB, and so on, allowing it to perform other missions.

From this comparison, it is clear that those deciding which program to fund will not choose the ‘adequate’ small warship because other programs like the aircraft described above offer a greater return on investment. More capability is clearly needed to make the ship worthwhile.

Going From Viable to Worthwhile

The challenge with solving this problem is that it must be done without compromising the cost and size of these ships. The addition of desirable features led to the size and cost growth of LCS out of the original Streetfighter concept. Subsequent additions to fit into the traditional concept of a frigate with the FFG(X) program have produced a vessel with capabilities, and by extension costs, approaching that of the Arleigh Burke-class destroyer.

To retain the advantages of a small warship and keep it from growing into another Burke, two fundamental options are available: enhanced launch/support facilities, and secondary armament reconfigurations.

This section will explain how the LMACC program addresses this problem and provide the full design details for our baseline configuration. We have made significant enhancements to our launch and support facilities to improve overall utility, and have detailed plans for providing sealift support to the USMC during distributed operations. For the secondary armament, we took advantage of the interactions between technologies to provide much greater lethality against smaller surface threats and to restore the ability to provide robust fire support for Marines ashore at comparable cost.