The US Army plans to build prototypes in the next several years of a new lightweight Mobile Protected Firepower armored vehicle expected to change land war by outmatching Russian equivalents and bringing a new dimension to advancing infantry as it maneuvers toward enemy attack.
Long-range precision fire, coordinated air-ground assault, mechanized force-on-force armored vehicle attacks and drone threats are all changing so quickly that maneuvering US Army infantry now needs improved firepower to advance on major adversaries in war, Army leaders explain
“Mobile Protected Firepower helps you because you can get off road. Mobility can help with lethality and protection because you can hit the adversary before they can disrupt your ability to move,” Rickey Smith, Deputy Chief of Staff, G-9, TRADOC, told Warrior Maven in an interview.
Smith did not elaborate on any precise weight, but did stress that the effort intends to find the optimal blend of lethality, mobility and survivability. Senior Army leaders, however, ,do say that the new MPF will be more survivable and superior than its Russian equivalent.
The Russian 2S25 Sprut-SD air transportable light tank, according to Russian news reports, weighs roughly 20 tons and fires a 125mm smoothbore gun. It is designed to attack tanks and support amphibious, air or ground operations. The vehicle has been in service since 2005.
“It (US Army MPF)is a light vehicle but not at the expense of the protection that the Russians accept. The level of protection on the vehicle they (the Russians) airdrop is not even close to what we are talking about,” Maj. Gen. David Bassett, former Program Executive Officer, Ground Combat Systems, said last Fall at the Association of the United States Army annual symposium. ;
In light of these kinds of near-peer adversaries with longer-range sensors, more accurate precision fires and air support for mechanized ground assault, the Army is acutely aware that its maneuvering infantry stands in need of armored, mobile firepower.
Current Abrams tanks, while armed with 120mm cannons and fortified by heavy armor, are challenged to support infantry in some scenarios due to weight and mobility constraints.
Accordingly, Smith explained that Infantry Brigade Combat Teams (IBCTs), expected to operate in a more expansive battlespace, will require deployable, fast-moving close-to-contact direct fire support. This fast-changing calculus, based on knowledge of emerging threats and enemy weapons, informs an Army need to close the threat gap by engineering the MPF vehicle.
While referred to by some as a “light tank,” Army officials specify that plans for the new platform seek to engineer a mobile combat platform able to deploy quickly. The MPF represents an Army push toward more expeditionary warfare and rapid deployability. Therefore, it is no surprise that two MPFs are being built to fit on an Air Force C-17 aircraft.
Rapid deployability is of particular significance in areas such as Europe, where Russian forces, for instance, might be in closer proximity to US or NATO forces.
Tactically speaking, given that IBCTs are likely to face drones armed with precision weapons, armored vehicle columns advancing with long-range targeting technology and artillery, infantry on-the-move needs to have firepower and sensors sufficient to outmatch an advanced enemy.
All of these factors are indicative of how concepts of Combined Arms Maneuver are evolving to account for how different land war is expected to be moving forward. This reality underscores the reason infantry needs tank-like firepower to cross bridges, travel off-road and keep pace with advancing forces.
Designs, specs and requirements for the emerging vehicle are now being evaluated by Army weapons developers currently analyzing industry submissions in response to a recent Request for Proposal.
The service expects to award two Engineering Manufacturing and Development (EMD) deals by 2019 as part of an initial step to building prototypes from multiple vendors, service officials said. Army statement said initial prototypes are expected within 14 months of a contract award.
While requirements and particular material solutions are expected to adjust as the programs move forward, there are some initial sketches of the capabilities the Army seeks for the vehicle.
According to a report from Globalsecurity.org, “the main gun has to be stabilized for on-the-move firing, while the optics and fire control system should support operations at all weather conditions including night operations.”
BAE Systems, General Dynamics Land Systems and SAIC (partnered with ST Kinetics and CMI) are among the industry competitors seeks to build the new MPF. It is be no means surprising that, given the ongoing competition, industry competitors are reluctant to discuss details of their various offerings.
For the Army, the effort involves what could be described as a dual-pronged acquisition strategy in that it seeks to leverage currently available or fast emerging technology while engineered the vehicle with an architecture such that it can integrate new weapons and systems as they emerge over time.
An estimation of technologies likely to figure prominently in the MPF developmental process leads towards the use of lightweight armor composites, active protection systems and a new generation of higher-resolution targeting sensors. Smith explained how
this initiative is already gaining considerable traction.
This includes the rapid incorporation of greater computer automation and AI, designed to enable one sensor to perform the functions of many sensors in real-time. For instance, it’s by no means beyond the imagination to envision high-resolution forward-looking infrared (FLIR) sensors, electromagnetic weapons and EO-IR cameras operating through a single sensor.
“The science is how do I fuse them together? How do I take multiple optical, infrared, and electromagnetic sensors and use them all at once in real-time ” Smith said.
“If you are out in the desert in an operational setting, infrared alone may be constrained heat so you need all types of sensors together and machines can help us sift through information,” added Smith.
In fact, the Army’s Communications Electronics Research, Development and Engineering Center (CERDEC) is already building prototype sensors - with this in mind. In particular, this early work is part of a longer-range effort to inform the Army’s emerging Next-Generation Comat Vehicle (NGCV). The NGCV, expected to become an entire fleet of armored vehicles, is now
being explored as something to emerge in the late 2020s or early 2030s. (For Warrior Maven's Previous Report on next-generation combat vehicle sensors CLICK HERE)
One of the key technical challenges when it comes to engineering a mobile, yet lethal, weapon is to build a cannon both powerful and lightweight enough to meet speed, lethality and deployability requirements.
U.S. Army’s Combat Vehicle Modernization Strategy specifically cites the need to bring large caliber cannon technology to lightweight vehicles. Among other things, the strategy cites a lightweight 120mm gun called the XM360 – built for the now-cancelled Future Combat Systems Mounted Combat System. While the weapon is now being thought of as something for NGCV or a future tank variant, its technology bears great relevance to the MPF effort – which seeks to maximize lightweight, mobile firepower. (For Warrior Maven's Previous Report on NGCV - CLICK HERE)
Special new technology was needed for the XM360 in order to allow a lighter-weight cannon and muzzle to accommodate the blast from a powerful 120mm tank round.
Elements of the XM360 include a combined thermal and environmental shroud, blast deflector, a composite-built overwrapped gun,
tube-modular gun-mount, independent recoil brakes, gas-charged recuperators, and a multi-slug slide block breech with an electric actuator, Army MCS developmental documents describe.
For lighter weight vehicles, recoil limitations are overcome by incorporating the larger caliber rarefaction wave gun technology while providing guided, stabilized LOS, course-corrected LOS, and beyond LOS accuracy."
An article in nextBIGFuture cites progress with a technology referred to as rarefaction wave gun technology, or RAVEN. explaining it can involve “combining composite and ceramic technologies with castings of any alloy – for dramatic weight reduction.” The idea is, in part, to develop and demonstrate hybrid component concepts that combine aluminum castings with both polymer matrix composites and ceramics, the report says.
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