4 January 2017
New quieting technologies could help US submarine operate in or near enemy territory without being detected; this will enable US subs to detect and destroy enemy submarines, ships and incoming weapons at much farther distances.
Navy leaders say the service is making progress developing new acoustics, sensors and quieting technologies to ensure the U.S. retains its technological edge in the undersea domain – as countries like China and Russia continue rapid military modernization and construction of new submarines.
The innovations, many details of which are secret and not available, include quieting technologies for the engine room to make the submarine harder to detect, a new large vertical array and additional coating materials for the hull, Navy officials explained.
“We are talking about changes in sensors and changes in the capabilities aboard the ship that we think could be very dramatic in terms of improving our ability to compete in our acoustic spectrum,” Rear Adm. Charles Richard, former Director of Undersea Warfare, told Scout Warrior in a special interview last year.
Richard told Scout Warrior that the impetus for the Navy effort, called “acoustic superiority,” is specifically grounded in the emerging reality that the U.S. undersea margin of technological superiority is rapidly diminishing in light of Russian and Chinese advances.
The idea with “acoustic superiority,” is therefore to engineer a circumstance wherein U.S. submarines can operate undetected in or near enemy waters or coastline, conduct reconnaissance or attack missions and sense any movement or enemy activities at farther ranges than adversaries can.
Acoustic sensor technology works by using underwater submarine sensors to detect sound “pings” in order to determine the contours, speed and range of an enemy ship, submarine or approaching weapon. Much like radar analyzes the return electromagnetic signal bounced off an object, acoustics works by using “sound” in a similar fashion. Most of the undersea acoustic technology is “passive,” meaning it is engineered to receive pings and “listen” without sending out a signal which might reveal their undersea presence or location to an enemy, Richard explained.
Described as a technology insertion, the improvements will eventually be integrated on board both Virginia-Class submarines and the now-in -development next-generation nuclear-armed boats called the Ohio Replacement Program.
“The testing going on with the acoustic superiority program is more on the sensor side of the house. We see ourselves on the cusp of a fourth generation of undersea communications,” Richard added.
The concept with a fourth generation of undersea technology is based upon a “domain” perspective as opposed to a platform approach – looking at and assessing advancements in the electro-magnetic and acoustic underwater technologies, Richard explained.
“In this fourth generation, acoustic stealth will always be required - get into a hostile environment. If I am noisy, I am not going to live very long. We are constantly pushing the boundary of how to minimize our own signature - while having a better ability to detect an adversary signature,” Richard told Scout Warrior.
Richard articulated the first two generations as the advent of the first operational submarine fleets during WWII and the subsequent advent of undersea nuclear weapons during the Cold War.
“WWII was our first time to field a fleet scale capability that was effective in a war. It actually helped us win,” he said.
The new “acoustic superiority” effort is immersed in performing tactical assessments as well as due diligence from an academic standpoint to make sure the service looks at all the threat vectors – whether that be hydrodynamics, acoustics, lasers, among others.
The emerging technologies, however, are heavily focused upon sensitive, passive acoustic sensors able to detect movement and objects of potential adversary boats and ships at much further ranges and with a higher-degree of fidelity. While high-frequency, fast two-way communication is currently difficult to sustain from the undersea domain, submarines are able to use a Very Low Frequency radio to communicate while at various depths beneath the surface.
“Low frequency radio signals allow for slower communication. Water is opaque and it is also opaque to radio energy. We have the ability to use certain radio frequencies that do penetrate in the water but they tend to limit you in data rate and receive only. It’s very reliable and it well understood. Ballistic missile submarines are in constant communication,” Richard added.
The South Dakota is slated deliver in the next few years, Navy officials said.
Study: US Undersea Technological Dominance in Jeopardy.Senior Navy officials have explained that the innovations contained in the USS South Dakota do, at least in part, help address an issue raised by a report by the Center for Strategic and Budgetary Assessments.
The report, titled “The Emerging Era in Undersea Warfare,” says the technological margin of difference separating the U.S from potential rivals is expected to get much smaller. This is requiring the U.S. to re-think the role of manned submarines and prioritize innovation in the realm of undersea warfare, the study says.
“America’s superiority in undersea warfare results from decades of research and development, operations, and training. It is, however, far from assured. U.S. submarines are the world’s quietest, but new detection techniques are emerging that don’t rely on the noise a submarine makes, and may make traditional manned submarine operations far more risky in the future. America’s competitors are likely pursuing these technologies even while expanding their own undersea forces,” writes the report’s author Bryan Clark.
In the report, Clark details some increasingly available technologies expected to change the equation regarding U.S. undersea technological supremacy. They include increased use of lower frequency active sonar and non-acoustic methods of detecting submarine wakes at short ranges. In particular, Clark cites a technique of bouncing laser light or light-emitting-diodes off of a submarine hull to detect its presence.
“The physics behind most of these alternative techniques has been known for decades, but was not exploited because computer processors were too slow to run the detailed models needed to see small changes in the environment caused by a quiet submarine. Today, ‘big dat’” processing enables advanced navies to run sophisticated oceanographic models in real time to exploit these detection techniques,” Clark writes.
Chinese Submarine Threat:When asked about the pace of Chinese undersea military construction and modernization, Richard explained that the Navy is focused on sustaining the research and development, or R&D, sufficient to ensure the U.S. retains its technological superiority.
Richard added that the submarine fleet, and strategic nuclear deterrence in particular, is all the more pressing and significant now that China has operational nuclear-armed JL-2 missiles able to hit part of the United States.
A recent Congressional report states that Chinese modernization plans call for a sharp increase in attack submarines and nuclear-armed submarines or SSBNs. Chinese SSBNs are now able to patrol with nuclear-armed JL-2 missiles able to strike targets more than 4,500 nautical miles.
The Chinese are currently working on a new, modernized SSBN platform as well as a long-range missile, the JL-3, Congressional information says.