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Joint Light Tactical Vehicle

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Oshkosh L-ATV
File:JLTV Spec table.jpg
Oshkosh Defense's Light Combat Tactical All-Terrain Vehicle (L-ATV).[1]
Typelight multi-role vehicle/light tactical vehicle
Place of originUnited States
Service history
In serviceFY 2018 (planned)[2]
Used byUnited States Army
United States Marine Corps
Production history
DesignerOshkosh
Designed2011[3]
Unit cost$250,000 (base vehicle)[2]
$400,000-$560,000 (including R&D, radios, weapons, and armor)[1][2]
No. built54,600 (planned)[1]
VariantsFour-seat general purpose (JLTV-GP)[3]
Four-seat close combat weapons carrier (JLTV-CCWC)[3]
Two-seat utility (JLTV-UTL)[3]
Specifications
MassCurb weight: 14,000 lb (6,400 kg)

Armorclassified (A-kit/B-kit configuration)
Main
armament
a variety of light and medium caliber weapons, plus AGLs or ATGWs can be fitted if required
Secondary
armament
smoke grenade launchers
EngineGM Duramax V8, 6.6-litre of unspecified power output
(est. 300 hp (224 kW))
TransmissionAllison automatic; Oshkosh transfer case
SuspensionOshkosh TAK-4i independent suspension
Operational
range
300 miles
Maximum speed Forward
Road: 70 mph
Off road: varies
Reverse: 8 mph
Steering
system
power-assisted, front axle

The Oshkosh L-ATV (Light Combat Tactical All-Terrain Vehicle) is a light utility/combat multi-role vehicle that won the US military's Army-led Joint Light Tactical Vehicle (JLTV) program. In the very early stages of the program it was suggested that JLTV would replace the AM General High Mobility Multi-purpose Wheeled Vehicle (HMMWV; pronounced "Humvee") on a one-for-one basis. It is now suggested that the JLTV will part-replace the HMMWV, not replacing it on a like-for-like basis.[4]

Oshkosh's L-ATV will deliver a level of protection similar to that of current, but far heavier and less maneuverable, Mine Resistant Ambush Protected (MRAP) class designs,[5] these having far more protection from blast than even the latest up-armoured HMMWVs.

On 25 August 2015, the L-ATV was selected as the winner of the JLTV program.[1]

History

Background

The idea for the Joint Light Tactical Vehicle (JLTV) first emerged in 2007 from threats experienced during the Iraq War. The primary tactical wheeled vehicle used by the U.S. military at the start of the war was the Humvee. However, it was unarmored and built for payload mobility, so they incurred heavy losses when improvised explosive devices (IEDs) began being employed by insurgents. The initial response was to add armor to existing Humvees primarily on the sides, which improved ballistic protection against direct fire, but since the chassis was not designed to handle the extra weight there was little room for underbody protection, it wore out the suspension and drive train, and compromised off-road mobility. To combat growing numbers of IEDs, the U.S. rapidly procured some 25,000 Mine Resistant Ambush Protected (MRAP) vehicles, including the M-ATV for use in Afghanistan. While MRAPs offered superior protection from underbody blasts, they were significantly larger and heavier and still had poor off-road mobility; the military incorporated MRAPs in response to operational needs, but never intended them to become a permanent part of their tactical wheeled vehicle fleets, so thousands were scrapped, stored, or sold off upon conclusion of operations.

Since up-armoring Humvees and buying MRAPs addressed specific issues but created gaps in vehicle capabilities, the JLTV program was started to incorporate lessons learned and balance payload, mobility, and protection into a new vehicle. Its purpose was to restore the mobility commanders had with the original Humvee while having the side and underbody protection of an MRAP. It would be around two-thirds the weight of an MRAP, possible to be carried under a CH-47 Chinook and CH-53E Super Stallion and by amphibious vessels, things impossible for an MRAP. It would also be 70 percent faster off-road, adding to survivability by enabling it to egress a combat situation faster. Compared to the Humvee, the JLTV will have the mobility of early unarmored versions with greater protection than up-armored versions, along with greater reliability, payload capacity, and ease of repair. The JLTV is also the first vehicle purpose-built for network connectivity into the Warfighter Information Network-Tactical.[1][2][6][7][8][9]

Unveiling and testing

Oshkosh Defense first displayed the L-ATV at Association of the United States Army (AUSA) in Washington DC on 10 October to 12 October 2011. This, the first 'public appearance' for the design, was not an open appearance and came in the form of closed combined briefings/viewings to invited attendees only. Oshkosh briefed Jane's Independent Defense Review[10] that the L-ATV has developmental origins that trace back to 2007 and Oshkosh/Northrop-Grumman's failed JLTV proposal, with some sub-systems having a lineage that trace back to 2005. At the time, L-ATV was the lightest tactical vehicle designed by Oshkosh, being some 50% lighter than anything previously produced by the company.

At AUSA 2011, Oshkosh suggested that following then recent program developments, L-ATV would be offered to meet the recently revitalized JLT's EMD (Engineering & Manufacturing Development) phase.[11] On 26 January 2012, the RFP for JLTV's EMD Phase was released.[12] On 23 August 2012, the Army and Marine Corps selected the Oshkosh Defense L-ATV, as well as the Lockheed Martin JLTV entry and AM General BRV-O, as the winners of the Engineering and Manufacturing Development (EMD) phase of the JLTV competition. They were awarded a contract to build 22 prototype vehicles in 27 months to be judged by the services.[13]

On 6 February 2013, Oshkosh unveiled the Utility Variant of its JLTV offer, fulfilling JLTV's requirement for a two-seat cargo vehicle. The vehicle's performance was demonstrated at the 2013 NATC Technology Rodeo at the Nevada Automotive Test Center (NATC). The Utility Variant is designed to provide mobility for loads such as containers, pallets, and break bulk cargo. It can also be outfitted as a shelter carrier to carry standard shelters for communications systems, on-board electronics, and other functions. Payload capacity is in excess of 5,100 pounds. Both Oshkosh L-ATV variants leverage a common crew protection system, advanced automotive systems, and the patented Oshkosh TAK-4i™ intelligent independent suspension system.[14]

In June 2013, L-ATV prototypes participated in an event hosted by the U.S. JLTV Joint Program Office in Quantico, VA. The vehicles successfully completed the severe off-road track (SORT) without failure. The SORT demonstrated the L-ATV's ability to maneuver steep inclines, turn sharply, and operate in rugged terrain.[15] On 8 August 2013, Oshkosh delivered its first L-ATV JLTV prototype to the Army for government testing following a successful vehicle inspection by the Defense Contract Management Agency (DCMA). The four-seat variant (which has two base platforms – Close Combat Weapons Carrier (CCWC) and the General Purpose (GP))[16] and two-seat Utility Variant were provided for evaluations.[17]

On 27 August 2013, the Army and Marine Corps announced that full-scale testing of JLTV prototypes would begin the following week, with all three vendors having had 66 vehicles delivered. Each company delivered 22 vehicles and six trailers to Aberdeen Proving Ground, Maryland, and Yuma Proving Ground, Arizona. Previous testing had already put the vehicles through more than 400 ballistic and blast tests on armor testing samples, underbody blast testing, and more than 1,000 miles in shakedown testing. Soldiers from the Army Test and Evaluation Command and personnel from the Defense Department's Office of Test and Evaluation would begin to put the vehicles through realistic and rigorous field testing during 14 months of government performance testing. Testing was scheduled for completion by FY 2015, with a production contract to be awarded to a single vendor for almost 55,000 vehicles (49,099 Army; 5,500 Marines). The average unit manufacturing cost in A-kit (fitted for but not with armor) configuration is not to exceed $250,000. The Army has set an Initial Operating Capability (IOC) of May 2018 and plans to complete its fielding by FY2040. The Marines have an IOC of December 2017, and plans to complete its fielding by FY2022. On 3 September 2013, full-pace, full-scope JLTV testing began at Aberdeen Proving Ground, Yuma, and Redstone Arsenal, Alabama. One vendor was to be selected by July 2015, and produce 2,000 vehicles for three years of additional testing to fine-tune the assembly line and full-up the system.[18][19][20][21][22]

In July 2014, the L-ATV completed Net-Ready testing as part of the JLTV program, involving transferring data from onboard systems to external networks.[23] On 17 July 2014, Oshkosh announced the L-ATV had completed 200,000 miles and all requirements for Reliability, Availability, Maintainability (RAM) testing.[24] On 19 November 2014, Oshkosh announced the L-ATV had completed Limited User Testing (LUT) with the U.S. Army and Marine Corps for the JLTV EMD contract. The LUT focused on JLTV system capabilities, functions, operations, and interfaces in a range of simulated tactical environments covering operator and crew-level preventive maintenance for the entire system, ensuring they could operate proficiently and safely. The Army held theirs the previous September and October, where three tests were held as 96-hour cycles to simulate operational missions, one of which incorporated a live fire demonstration. The Marines completed two test cycles in October and November with one live fire demonstration.[25] The Army released the final JLTV RFP on 12 December 2014.[26] On 10 February 2015 Oshkosh Defense issued a press release announcing the company had submitted its proposal (the L-ATV) in response to the JLTV Low Rate Initial Production (LRIP) and Full Rate Production (FRP) RFP.[27]

On 31 March 2015, Oshkosh announced it would show its JLTV offering, the L-ATV, at the AUSA 2015 Global Force Symposium and Exposition in Huntsville, Alabama. The company also announced it would show its Virtual Task Trainer (VTT) for the L-ATV at the conference. The VTT is an interactive training module that provides interactive 3D training for soldiers in a safe and lifelike virtual environment. Speaking of the VTT, Mike Ivy, vice president of global integrated product support for Oshkosh Defense said: "The addition of Oshkosh's virtual training to our multi-faceted curriculum reduces the cost of operator training by improving training effectiveness and efficiency." He added: "We deployed the VTT to train operators during early JLTV testing with great results. Soldiers were really engaged, and our training was not only better, but it took less time than it would have without the VTT. This represents a significant cost savings opportunity for the government."[28]

Selection

On 25 August 2015, the Army selected the Oshkosh L-ATV as the winner of the JLTV program. The company was awarded a $6.75 billion low rate initial base contract with eight options to procure the first 16,901 vehicles for both the Army and Marines. Oshkosh CEO, Charles Szews, said the production contract award would involve more than 300 suppliers in 31 states across the country. The Army initially refused to detail why the L-ATV was chosen over its competitors, likely owing to anticipations of protests from the losing bidders.[1][6]

On 8 September it was disclosed that Lockheed Martin would protest the award to Oshkosh; on the same day it was also disclosed that AM General had decided not to file a protest. Any work that would be performed under the contract stopped during the review period.[29] On December 15 the Government Accountability Office (GAO) dismissed Lockheed Martin's protest because the company on December 11 decided to file a “Notice of Post-Award Bid Protest” with the U.S. Court of Federal Claims; according to a source with knowledge of the procedures, it is uncommon for a company to file with the court close to a GAO protest decision.[30] Immediately after the GAO dismissed the protest, the Army instructed Oshkosh to resume work on the JLTV order.[31] Lockheed filed their preliminary injunction on 17 December, claiming that new Army-supplied information related to the contract emerged toward the end of the GAO’s protest process that was not considered before their ruling and no deadline extension was granted.[32] The U.S. Court of Federal Claims denied Lockheed's request to stop work while the lawsuit was pending, allowing Oshkosh to continue building vehicles during the process.[33] On 17 February 2016, Lockheed withdrew their protest of the JLTV contract award decision in the Court of Federal Claims.[34]

Design

The L-ATV is based around Oshkosh's TAK-4i (i = intelligent) independent suspension system. Around 26,000 military vehicles are fitted with an earlier version of the system,[35] these including the Oshkosh Medium Tactical Vehicle Replacement (MTVR), Oshkosh Logistic Vehicle System Replacement (LVSR), and Oshkosh MRAP All-Terrain Vehicle (M-ATV); the TAK-4 system has also been retro-fitted to the Force Protection Inc Cougar and BAE Systems RG-33 MRAPs.[36] The majority of systems supplied to date have been coil-sprung. The TAK-4i version fitted to the L-ATV remains undisclosed, but is not coil-sprung and is of the variable adjustable ride-height type with up to 20 inches (51 cm) of wheel travel, 25 percent more than the current standard.[37][38]

Motive power for the JLTV variant of the L-ATV is provided by a digitally-controlled General Motors (GM) Duramax V8 cylinder 6.6-liter diesel engine of undisclosed power output, but estimated to be around 300 hp. In commercial use power output of this engine is currently up to 397 hp (296 kW) at 3000 rpm. An unspecified fully automatic Allison Transmission is fitted, this coupled to an Oshkosh transfer case. It is currently not known if this is a single-speed or two-speed (high/low ratio) transfer case.[39] The L-ATV can be fitted with the Oshkosh ProPulse diesel-electric powertrain, previously fitted to the Oshkosh Heavy Expanded Mobility Tactical Truck (HEMTT) and MTVR. According to Oshkosh literature,[40] the ProPulse diesel-electric powertrain dramatically improves fuel economy by up to 35 percent in certain circumstances and serves as an on-board generator with enough output to power an entire airfield or hospital, generating up to 120 kW of AC power for external operations; the hybrid powertrain is not a requirement of the JLTV program.[37] In a Limited User Test (LUT), the L-ATV demonstrated reliability of 7,051 "Mean Miles Between Operational Mission Failure," more than the Humvee and either other JLTV competitor.[41]

The L-ATV offers protection levels greater than those of up-armoured HMMWVs and comparable to those of original MRAP class designs, but in an overall vehicle package that is considerably smaller and lighter than vehicles procured under the US Marines MRAP procurement.[42] The L-ATV is fully compliant with the US Army's Long Term Armor Strategy (LTAS), based around the A-kit/B-kit modular armour principle. The A-kit, which is installed during build, is primarily fixings for add-on armour but can include small amounts of armour fitted in difficult-to-reach areas. The B-kit is essentially the add-on armour, this added when required and as a modular add-on. According to the US Army, the A-kit/B-kit concept allows the Army flexibility in several areas: the armor B-kit can be taken off when not needed – reducing unnecessary wear and tear on the vehicles; the Army can continue to pursue upgrades in armor protection – adapting B-kits to match the threat; and the versatility of the B-kit enables the transfer of armor from unit to unit – making armor requirements affordable by pooling assets versus buying armor that is only for one vehicle.[43] Oshkosh developed the CORE 1080 crew protection system for the vehicle, comprising the hull design, armor materials, a fire-extinguishing system, and energy-absorbing floors, seats, and restraint systems for crew members and stowage.[44]

The Oshkosh M-ATV, which was procured primarily for Afghanistan where the earlier and bigger/heavier MRAPs had mobility issues, has protection comparable to the original MRAP designs, but while smaller it still remains a relatively large vehicle. During the L-ATV design process, every component was optimized for survivability, resulting in the same level of protection in a vehicle 30 percent smaller. This resulted in a curb weight for the JLTV requirement of 14,000 lb (6,400 kg), almost one-third the weight of the heavier MRAP (4x4) models,[45] and almost half the weight of the original MRAP models.[46] Payload allowance for the JLTV in Combat Tactical Vehicle (CTV) configuration is four passengers and 3,500 lb (1,600 kg) of cargo, and in Combat Support Vehicle (CSV) configuration is two passengers and 5,100 lb (2,300 kg) of cargo.[47]

The base L-ATV does not have a standard armament, however it can be fitted with a selection of weapons including light, medium, and heavy machine guns, automatic grenade launchers, or anti-tank guided missiles (ATGMs) depending on user requirements. The weapons can be operated from ring mounts or a remote weapon station.[37][38] Smoke grenade launchers for self-defence can also be fitted if required.

See also

References

  1. ^ a b c d e f Oshkosh Wins JLTV Award – Armytimes.com, 25 August 2015
  2. ^ a b c d Oshkosh Wins $6.7 Billion JLTV Contract – DoDBuzz.com, 25 August 2015
  3. ^ a b c d Oshkosh Defense Wins JLTV Contract – Defensemedianetwork.com, 26 August 2015
  4. ^ "End of an icon: the rise and fall of the Humvee".
  5. ^ "Light Combat Tactical All-Terrain Vehicle (L-ATV), United States of America".
  6. ^ a b "Oshkosh Beats Lockheed, AM General For Historic JLTV Win". Breaking Defense. Retrieved August 26, 2015.
  7. ^ Oshkosh wins contract to manufacture joint light tactical vehicle - Army.mil, 26 August 2015
  8. ^ Oshkosh Wins $30 Billion Army Contract Battle to Replace Humvee - Defenseone.com, 25 August 2015
  9. ^ Oshkosh grabs huge armored vehicle contract - Defensesystems.com, 27 August 2015
  10. ^ Shaun Connors. "Oshkosh displays latest JLTV". Jane's Independent Defense Review. Retrieved March 12, 2015.
  11. ^ Daniel Wasserbly. "DSEi: Oshkosh promotes L-ATV for US light vehicle contest". Jane's Defence Weekly. Retrieved March 12, 2015.
  12. ^ A--AWARD NOTICE (MULTIPLE) for RFP W56HZV-11-R-0329 – Joint Light Tactical Vehicle (JLTV) Engineering and Manufacturing Development (EMD) phaseDoreen Costa (PoC). "A--AWARD NOTICE (MULTIPLE) for RFP W56HZV-11-R-0329 – Joint Light Tactical Vehicle (JLTV) Engineering and Manufacturing Development (EMD) phase". FedBizOpps.Gov. Retrieved March 29, 2015.
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  15. ^ "Oshkosh Defense demonstrates its L-ATV prototypes for the U.S. Army JLTV program" – Armyrecognition.com, 14 June 2013
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  30. ^ Jen Judson (15 December 2015). "GAO Dismisses Lockheed JLTV Protest, Cites Pending Litigation". DefenseNews. Retrieved 16 December 2015.
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  32. ^ Lockheed Files Injunction To Stop Work On JLTV - Defensenews.com, 18 December 2015
  33. ^ Oshkosh To Continue JLTV Production During Lawsuit - Defensenews.com, 12 February 2016
  34. ^ Lockheed Withdraws Protest of Army’s JLTV Award - DoDBuzz.com, 17 February 2016
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