Marine Corps Drives Innovation, Collaborates with Army at Camp Pendleton for PC-C4 > U.S. Marine Corps Flagship > News Display

Marine Corps Drives Innovation, Collaborates with Army at Camp Pendleton for PC-C4 > U.S. Marine Corps Flagship > News Display


In response to the 2018 National Defense Strategy’s warning that adversaries are actively challenging the established world order, the Marine Corps is transitioning from traditional land-based operations to naval expeditionary capabilities, particularly in disputed coastal areas. It began a major shift towards a more focused focus.

This axis, encapsulated in Force Design, led to a comprehensive strategic overhaul of the world’s premier fighting force. So far, this has resulted in a more agile and technologically sophisticated force capable of operating effectively in conflict littoral environments, with a focus on fostering unparalleled interoperability with allies and joint force partners. was founded.

This 21st century rapid response force focuses on rigorous testing, wargaming, and experimentation with developed concepts, and is part of the U.S. Army’s Project Convergence Capstone 4 (PC -C4). Corps Base Camp, Pendleton, California — February 23 to March 20, 2024.

“PC-C4 is a waypoint in the service’s experimental campaign. What was different about this experiment was that while it grew in scale and complexity, rapid technological advancements were driven in parallel with coalition and joint forces. “This is what is being done,” said Col. Mike Carroll, director of the Marine Corps Combat Research Laboratory’s Experimental Division. “We are committed to gleaning the lessons observed and look forward to future opportunities to conduct experiments by, with the Navy, and through the Fleet Marine Corps. , we remain focused on increasing interoperability and ensuring the warfighter’s needs are at the forefront of our efforts.”

Project convergence

PC-C4 is a groundbreaking multinational joint military experiment hosted by the U.S. Army Futures Command and dedicated to advancing and integrating cutting-edge defense capabilities to enhance joint and coalition effectiveness. with a particular focus on testing advanced air and missile defenses. Build systems and leverage the sensor capabilities of drones and manned aircraft for more effective force protection and targeting.

Throughout PC-C4, the Corps demonstrated its strategic foresight and technological capabilities by demonstrating breakthrough advances in the development of littoral maneuver capabilities to sustain stand-in forces. These experiments, conducted during collaboration between joint forces and international partners, are essential to achieving the goals outlined in the force design, and particularly given the challenges posed by logistics conflicts, the United States and its Strengthen the readiness of allies and partners.

Additionally, the Corps helped advance the Department of Defense’s Joint All-Domain Command and Control Initiative (CJADC2) efforts by actively contributing to the creation of time advantages in conflict environments. Through efforts such as Project Dynamis and the deployment of the Integrated Targeting Cell Family (FITC), the Marine Corps has enhanced communications and sensor capabilities to facilitate fire integration and kill web closure within the joint/joint force structure.


Marine Corps efforts related to the learning campaign were evident at Camp Pendleton’s Del Mar Boat Basin from Feb. 23 to March 1. So Marine Corps Combat Research Laboratory (MCWL) worked on his two use cases as part of PC-C4. One covered joint fires and the other covered logistics during conflict. Both supported experiments that combined kinetic and non-kinetic effects to create temporal advantages in all areas, building multi-domain corridors that would enable coastal maneuvering and persistence. Multi-domain corridors increase the survivability of stand-in forces by allowing the movement of troops and supplies over a period of time through specific coastal areas.

MCWL continued testing with the experimental 254-SLV. This capability will enhance the lethality and survivability of warfighters on the world’s coasts through its role as a maneuver, maneuverability, and sustainment platform, and as one interim solution until the next Navy Medium Landing Ship (LSM). Ready to improve significantly. , go through the acquisition process.

This initial week-long test event was designed to inform LSM operational concepts and future requirements. In line with Force Design’s strategic focus on distributed operations, this state-of-the-art landing craft expands the Corps’ strategic reach and presence in critical maritime environments to protect American and allied interests around the world. We plan to strengthen this. This testing will ultimately allow the acquisition community to assess the vessel’s actual capabilities and is an important step in determining future operational requirements.

As currently envisioned, the LSM is a critical component in the Corps’ strategic return to global littoral operations, allowing Marines, vehicles, and various other forms of supplies to be transported from ship to shore within conflict environments. means progress.

Project Convergence Capstone 4 Stern Landing Ship
Photo courtesy of Lance Corporal Mechaela Watts.

A joint light tactical vehicle boards a stern landing ship at Del Mar Boat Basin at Camp Pendleton, Calif., during Project Convergence Capstone 4. The Marine Corps Warfighting Laboratory contracted with SLV to experiment with stand-in force maneuver and sustainment options. To inform the development of the Landing Medium Ship (LSM). PC-C4 is an all-military multinational experiment sponsored by the Army. During PC-C4, the Marine Corps Warfighting Laboratory tested new technologies and capabilities, as well as new concepts, including multi-domain corridors. Marine Corps participation in PC-C4 supported the force design initiative, integrated joint force and coalition capabilities into the experiment, and demonstrated the Marine Corps’ commitment to the joint warfighting concept. (U.S. Marine Corps photo by Lance Corporal and Mechaela Watts)

During PC-C4, combining SLVs with autonomous low profile vessels (ALPVs), semi-submersible vehicles designed to support cargo, is a viable alternative for transporting supplies through coastal areas. proved to be instrumental. And the incorporation of TRV-150 logistics drones for ship-to-shore and shore-to-shore deliveries opens possibilities for sustainability.

In addition, MCWL included experiments in a boat basin using the Multi-Mission Reconnaissance Craft (MMRC). The MMRC is a watercraft designed to insert and eject dismounted teams, perform reconnaissance, surveillance, and target acquisition on the water, and fill gaps in sensor coverage created by sensors. Expand the coastal operating area and extend the reach of the sensor web.

“The experiments we are conducting are based on competitive logistics and maritime sustainment in a competitive environment,” said Maj. Dan Greenlee, MCWL’s PC-C4 Competitive Logistics Use Case Lead. “A limited technical assessment will show you how to utilize the learning points accumulated during the week and will help you understand both your abilities and limitations.”

Achieving interoperability

While key capabilities were rigorously evaluated in PC-C4, collaboration with joint forces and international partners emerged as a key success. As Russia and China continue to challenge Western interests around the world, the National Defense Strategy emphasizes integrated deterrence and emphasizes the need for stronger partnerships with U.S. allies and partners.

Foreign participation across PC-C4, including military personnel from the UK, Australia, Canada, New Zealand, France, Japan and Sweden, is therefore essential to ensure future readiness.

But while it’s true that our partners can learn a lot from the Corps, the benefits of joint operations are ultimately mutual. Perhaps there is no better example to emphasize this point than Sweden. Sweden is an ancient maritime nation that finally joined NATO after a two-year battle with legal red tape.

Colonel Adam Cammell, commander of the Swedish 1st Marine Regiment, is excited about his country’s membership in NATO and was quick to express enthusiasm for the opportunity to work with the United States and other international partners in PCC4, while also He was aware of the broader history. Coastal forces along the Baltic Sea.

“We are pleased to join PC-C4 with the United States and (future) NATO allies,” Camel said. “While we recognize that we have much to learn from our international partners, we It is also true that we are learning a lot.” ”

Founded in 1522 under King Gustav I, the Swedish Navy is one of the world’s oldest continuously operating navies and has maintained control of the Baltic Sea coastline for more than 500 years. Ta.

Ultimately, the Marine Corps’ participation in PC-C4 demonstrates the Corps’ commitment to technological advancement, strategic foresight, and international cooperation. Through groundbreaking experiments and partnerships, the Corps has demonstrated the ability to innovate in the face of evolving threats, particularly in globally contested coastal areas. The exchange of knowledge and expertise is reciprocal, as demonstrated by the involvement of international partners, reinforcing the importance of cooperative efforts in ensuring collective security and preparing for future challenges. . As we prepare to face our adversaries on the battlefield of the future, the Marine Corps remains resolute in its mission to meet new threats with agility, innovation, and unified strength, regardless of climate or location. .

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