DefenseNews

Cost of US Navy’s Ship-to-Shore Connector breaches Nunn-McCurdy law

WASHINGTON — The U.S. Navy’s Ship to Shore Connector program has become expensive enough to breach Nunn-McCurdy cost thresholds laid out in the decades-old acquisition law, but the service said in a June 11 statement the program has stabilized and will continue in production.

The Navy’s SSC program is the replacement for the Landing Craft Air Cushion, or LCAC, that was designed and built in the 1980s and 1990s. Textron won the contract for the SSC program in 2012 but has so far delivered just three craft after challenges early in the program.

The program saw a series of delays throughout its early testing, which led to production delays at the Louisiana shipyard. The Navy didn’t request any money for the program in fiscal 2020 since so many craft were funded in previous budgets and were not being built yet.

“On March 26, the U.S. Navy notified Congress of an increase in the Program Acquisition Unit Cost and the Average Procurement Unit Cost for the Ship to Shore Connector (SSC) program that exceeds the current baseline estimate, breaching the significant Nunn-McCurdy cost threshold. The breach is attributed to first-in-class challenges that led to increased construction costs resulting from labor and material cost growth and schedule-related issues on early craft,” a Navy statement read. “This is not a critical Nunn-McCurdy breach that would require recertification of the program, and [the undersecretary of defense for acquisition and sustainment] has been notified. The SSC program production is now stable as the first in class challenges have been resolved.”

According to a Defense Acquisition University, if the program cost had risen above its current baseline estimate by 25 percent or more, the program would be terminated unless the defense secretary certified to Congress that it is essential to national security. The SSC breach refers to a cost increase of less than 25 percent.

Naval Sea Systems Command was unable to provide Defense News a new cost estimate for the program or identify how much the cost increased.

The Navy plans to buy 72 of these SSCs to replace an aging fleet of LCACs that haul Marines, ground vehicles and equipment to shore from amphibious warships. The LCACs and follow-on SSCs have an inflatable bottom that allows them to sit above the wave tops and “fly” across the water at high speeds, rather than cut through the surf at lower speeds like other connectors. Textron says the SSC can travel at 35 knots in sea state 3 conditions, or fairly calm waters with up to 4-foot waves, hauling 74 tons of gear.

Textron was awarded a contract for Craft 100 (sometimes called LCAC 100) in 2012. By 2016, Textron had been awarded all remaining contract options, out through LCAC 108.

Still, the first craft didn’t see in-water testing until 2018, didn’t go though acceptance trials until 2019 and wasn’t delivered until 2020. In September 2020, LCACs 100 and 101 were sent from Textron’s shipyard outside New Orleans to the Naval Surface Warfare Center in Panama City, Florida, to support initial operator training and move into post-delivery test and trials.

A third craft, LCAC 102, was delivered to the Navy and transited to Panama City earlier this month, the service said in its statement.

LCACs 103 through 115 are in various phases of production and “show reduced overall man hours and expedited outfitting in earlier stages of construction for improved cost and schedule performance,” the statement read.

After an April 2020 contract award, the first 24 craft have been put on contract with Textron, the company noted on its website.


Author: Megan Eckstein
Source: DefenseNews

Related posts
AI & RoboticsNews

Nvidia and DataStax just made generative AI smarter and leaner — here’s how

AI & RoboticsNews

OpenAI opens up its most powerful model, o1, to third-party developers

AI & RoboticsNews

UAE’s Falcon 3 challenges open-source leaders amid surging demand for small AI models

DefenseNews

Army, Navy conduct key hypersonic missile test

Sign up for our Newsletter and
stay informed!