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By Simon Veazey

In the secretive labs of the Pentagon, top military minds are working on a new fighting style.

Their novel vision for warfare isn’t about making bigger, faster, or even higher-tech kit. It is about getting numerous smaller, cheaper, perhaps lower-tech systems and deploying them in a radically new way.

The official term is Mosaic Warfare, but some strategists liken it to Lego.

“Like Lego blocks that nearly universally fit together, Mosaic forces can be composed together in a way to create packages that can effectively target an adversary’s system with just-enough overmatch to succeed,” says a Mitchell Institute study (pdf), released in September.

Mosaic warfare is the Defense Advanced Research Projects Agency (DARPA)’s solution to China’s growing military prowess.

China’s generals have honed their military to cripple the U.S. military’s brain and nervous system—a strategy known as Systems Destruction warfare. They have also invested heavily in long-range missile systems and anti-aircraft systems that threaten U.S. carriers and jets.

In war-gaming carried out by U.S. analysts, China often defeats the United States in some scenarios of Pacific warfare.

With its aircraft carriers, jets, and command systems no longer able to guarantee dominance, the U.S. military is revamping across the board.

Lego Wars

America’s most potent weapons systems pack multiple capabilities. The F-35, for example, is a missile launcher, radar sensor, stealth reconnaissance, targeting system and much more rolled into one.

F-35 Demonstration Team
Capt. Andrew Olson, F-35 Demonstration Team pilot and commander, performs a dedication pass during the Melbourne Air and Space Show in Melbourne, Fla., March 30, 2019. During the two-day event, more than 50,000 guests attended the Melbourne Air and Space Show. (U.S. Air Force photo by Senior Airman Alexander Cook)

With Mosaic warfare, instead of a limited number of the latest high-tech toys, military commanders would have the strategic equivalent of countless building blocks. Some would be unmanned.

Everything in the military toolkit—such as radar, radar sensing, jamming, missile launching or cyber capabilities—would be separated into these blocks, ready to be stuck together.

These can be assembled at will to fit each scenario, creating unique plays for each situation.

“Like the ceramic tiles in Mosaics, these individual warfighting platforms are put together to make a larger picture, or in this case, a force package,” says a statement on the DARPA website.

DARPA first unveiled the Mosaic concept in August 2017, and has since been developing it, through testing with wargaming scenarios. It has started to develop the information technology that could potentially hold together the tiles.

A “traditional” approach means constructing monolithic systems designed for specific purposes, says Harrison Schramm, Senior Fellow at the Center for Strategic and Budgetary Assessments.

When it comes to strategy, the very existence of those systems gives the game away.

“As an adversary, if I look at your systems, I can quickly parse out what your strategy is,” Schramm told the Epoch Times.

“The big difference here (and how this is different than other ideas) is the forces will be rapidly compose-able and may end up using tactics that haven’t been developed previously,” said Schramm. “In other words, we are going to determine how to use our kit based on our perception of the scenario. Which is a radical departure.”

“Mosaic is trying to uncouple us from the idea that we have platforms that can only fight in a certain way, and that if our adversaries don’t oblige us, then we are at a loss.”

Commanders trying to figure out how to piece together their bespoke force from the building blocks would be assisted by an Artificial Intelligence (AI)-powered adviser.

“One way Mosaic Warfare might work in a ground battle would be to send an unmanned aerial vehicle or ground robot ahead of the main ground battle force,” said a DARPA statement. “It might spot an enemy tank. The unmanned system passes the coordinates back, which are then relayed to a non-line-of-sight strike system in the rear, which in turn launches its munitions and takes out the target.”

Epoch Times Photo
Bell Helicopter’s V-280 Valor is shown in this artists image, part of the army’s Vertical Lift program—one of six priority areas identified in the Army Modernization Strategy. (Bell Helicopter)

“It sounds like it should be something very doable, but it’s not right now,” said Tom Burns, DARPA’s former STO director credited with coming up with the Mosaic concept. “The interfaces are not made to communicate that kind of information and the Army doesn’t have air and ground vehicles that it can send forward,” he said in the statement.

This mismatch of systems runs throughout the U.S. military, according to analysts. Even the next-generation F-35 is famously unable to talk to its stablemate, the F-22. That kind of communications shortfall is exactly the kind of issue that DARPA is trying to resolve in its research and development.

Smaller and Cheaper

DARPA declined to provide an interview, but directed The Epoch Times to the above statement on the Darpa website, and also to an article co-authored by Darpa project manager John Paschkewitz on national military specialist website War on the Rocks.

“The central idea is to be cheap, fast, lethal, flexible, and scalable,” the article reads. “Rather than building one expensive, exquisite munition optimized for a particular target, connect small unmanned systems with existing capabilities in creative and continually evolving combinations that take advantage of changing battlefield conditions and emergent vulnerabilities. Put simply, it’s Voltron on the cheap: a human-machine team combining flexible unmanned systems with coup d’oeil (strategic intuition) at a tempo that an adversary cannot match.”

That speed essentially leaves an adversary unable to put together a response in time—causing it to freeze like a fighter faced with an unfamiliar attack. In military terms, it gets inside the critical OODA loop. (Observe, Orientate, Decide, Act).

DARPA isn’t the only defense organization looking to more numerous, smaller, unmanned systems to counter renewed “great power competition” with Russia and China, as set forth in the Trump administration’s 2018 National Defense Strategy.

The Navy is considering a new strategy called Distributed Operations, which means moving away from reliance on a few large ships. Instead, its weapons and sensors would be spread across many more platforms, including unmanned ships, with no single point of failure.

The Nimitz-class aircraft carrier USS Abraham Lincoln transits the Strait of Gibraltar, entering the Mediterranean Sea
The Nimitz-class aircraft carrier USS Abraham Lincoln transits the Strait of Gibraltar, entering the Mediterranean Sea on April 13, 2019. (U.S. Navy photo by Mass Communication Specialist 2nd Class Clint Davis/ Released)

The Marine Corps is also proposing to use smaller boats to allow marines to slip onto Pacific islands where they can station missile batteries safe from China’s anti-ship missiles.

Epoch Times Photo
U.S. Marines currently under the 4th Marine Regiment, 3rd Marine Division, and members of the Indian military run to shore on Kakinada Beach, India, on Nov. 19, 2019. (U.S. Marine Corps photo by Lance Cpl. Christian Ayers)

Systems Destruction

DARPA’s Mosaic goes a step further than the Navy’s Distributed Operations and the Army’s Multi-Domain Operations concepts. Rather than just trying to side-step the anti-access problem, it also negates the Systems Destruction strategy of adversaries.

Systems Destruction refers to targeting the systems underlining a military capability or process, says Robert Bunker of the Strategic Studies Institute, U.S. Army War College.

“The German practice of blitzkrieg—maneuver warfare in World War II—was essentially targeting the Command and Control system of the opposing force which paralyzed its decision making and battlefield response capacity,” Bunker told The Epoch Times.

“The Chinese are wanting to gain the same capability via information dominance, precision strikes, and joint operations—which also sounds like older U.S. thinking related to this capability.”

With Mosaic, “the intent is to engage in a revolution in military affairs so that U.S. forces would jump ahead in operational battlefield capability over China,” says Bunker.

“Of course China now also seeks to do the same thing. As their economic power (GDP and high tech industry) increases they become a far more serious peer competitor in this regard.”

China military
Military vehicles carrying missiles drive past the Tiananmen Gate during a military parade on Sept. 3, 2015 in Beijing, China. (Rolex Dela Pena – Pool /Getty Images)

AI Assistant

Just as systems warfare seeks to identify the Achilles heel, the Mosaic seeks to make it difficult to pinpoint.

“The Achilles heel in one scenario might be different than the Achilles heel in a different scenario,” explains Schramm. “The aim is to spread them around and make them more difficult to discern. That’s where the role of autonomy and the role self-forming, self-healing networks comes into play as well.”

In theory, Mosaic is a strategy of warfare that could be enacted to a limited degree through adapting existing equipment.

“We live in the real world, and one of the rules of this entire enterprise is that nobody gets to start with a clean sheet,” says Schramm. “We have ships and aircraft that we have or are in the process of acquiring and we bought those to last a long time. ”

He says that Mosaic would “definitely blend in and use current capabilities as well as future acquisition.”

There are two pieces to Mosaic, explains Schramm, who has been working on Mosaic warfare gaming at the Center for Strategic and Budgetary Assessments.

One aspect is the adoption of platforms that can easily form the Lego bricks, or tiles, of the Mosaic concept. The other is the integration of Artificial Intelligence to help guide commanders through the vast array of strategic options now available.

“In the concept that we’ve played out in our war-games and our analysis of this, we’ve taken a small portion of the budget and repurposed it to buying Mosaic stuff, which is mostly small and autonomous and ‘loss tolerant.’”

The participants had to select which Mosaic pieces could be used.

“The Mosaic aspect of this is that you are combining things in a setting that may not have previously been combined in training or in operations,” says Schramm.

Part of the wargame was to see how participants used an AI assistant, which they term “man-machine teaming.”

“We allowed our participants to say how much manned, how much unmanned, how important the different parts of the mission were to each other. Then the machine part of the interface would deliver a solution and say, ‘This is how we recommend you apportion your force based on what you said was important to you.’”

According to Schramm, the AI limitations aren’t the challenge.

“I am firmly of the opinion that man-machine teaming and the integration of AI is a policy and a manpower problem. It’s not a technology problem. The technology either already exists, or exists on a path to development in the near term.”

Schramm warns against getting carried away with the potential of AI. “I have built things that don’t work. I know of real failures in AI.”

Despite the supremacy of AI in strategy games such as Chess and Go, those games are very limited in scope and work within precise rules.

“We all know that ‘checkmate’ is winning in Chess,” says Schramm. “In diplomacy and in war, what winning was on Monday might not be what winning was on Tuesday. Humans are very good at future thinking and making inferences with lack of data.”

“I don’t ever see in the near-term a human commander saying, ‘The box told me to send this many units over here, so this is what I am going to do.’ Where this is most effective is the machine does things that machines are good at, gets you to the 85 percent solution.”

Schramm says that they found that regardless of how smart the AI box was, the fundamentals of war strategy still applied.

“You can’t ‘AI’ your way out of physics. There are some aspects of this that are going to hold no matter how sophisticated our kit and our computers are.”

China’s Grand Strategy

But China is not just relying on Systems Destruction or the latest military tech.

China’s grand strategy is focused directly at the U.S., “says Bunker. “The CCP wants to create a parallel world system as a challenge to the liberal democratic one that has existed since the late 1940s.”

“The Chinese grand strategy has been to initially focus on economic development with their military forces being of secondary importance.”

Epoch Times Photo
Chinese soldiers sit atop tanks as they drive in a parade to celebrate the 70th anniversary of the Communist Party’s takeover of China, at Tiananmen Square in Beijing on Oct. 1, 2019. (Kevin Frayer/Getty Images)

Knowing it could not compete conventionally with the United States, the Chinese Communist Party (CCP) instead engaged in a Strategic Spaces campaign says Bunker.

“This is all taking place internationally within the gray zone short of war. A prime example of this strategy is their seizure and/or creation of islands throughout the South China Sea. Another example is their creation of Confucius Institutes for propaganda purposes.”

Another example is the strategy of isolating Taiwan internationally “in an attempt to turn it into a pariah state,” says Bunker. “The intent is to make it perceived as nothing more than an illegitimate breakaway province from the mainland.”

But Bunker says that Xi Jinping’s “Mao complex” may have pushed him to overplay China’s hand. “He is speeding up many of the CCP’s grand strategic timelines to the point that the U.S. and her allies are clearly seeing what the true danger of a rising China now means.


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