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Joint Light Tactical Vehicle

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Oshkosh Corporation , formerly Oshkosh Truck , is an American industrial company that designs and builds specialty trucks, military vehicles, truck bodies, airport fire apparatus, and access equipment. The corporation also owns Pierce Manufacturing , a fire apparatus manufacturer in Appleton, Wisconsin , and JLG Industries , a manufacturer of lift equipment, including aerial lifts, boom lifts, scissor lifts, telehandlers and low-level access lifts.

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93-564: The Joint Light Tactical Vehicle ( JLTV ), known and marketed under Oshkosh development as the L-ATV ( Light Combat Tactical All-Terrain Vehicle ), is a light utility/combat multi-role vehicle. The Oshkosh-developed JLTV was selected for acquisition under the US military 's Army-led Joint Light Tactical Vehicle program . In the very early stages of the program it was suggested that JLTV would replace

186-610: A request for proposal (RfP) for the TD phase of the JLTV program in February 2008. In October 2008, the Pentagon narrowed the field of vendors to respondents Lockheed Martin , General Tactical Vehicles and BAE Systems / Navistar . Each team was awarded contracts worth between $ 35.9 million and $ 45 million to begin the next phase of the program. These teams were as follows: Entries during

279-449: A chaotic shipping environment. HCCC allows logistics commanders to command and control within harbors, ports and shipping channels ensuring route security as Army logistics transitions from sea to shore. Capabilities Project Manager (PM) Warfighter Information Network-Tactical (WIN-T) designs, acquires, fields and supports fully integrated and cost effective tactical networks and services that meet Soldier capability needs while sustaining

372-581: A combat situation faster. Compared to the Humvee, the JLTV was to 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 the first vehicle purpose-built for network connectivity into the Warfighter Information Network-Tactical . The Joint Chief of Staff 's Joint Requirements Oversight Council approved

465-690: A common crew protection system, automotive systems, and the Oshkosh TAK-4i intelligent independent suspension system. In June 2013, L-ATV prototypes participated in an event hosted by the U.S. JLTV Joint Program Office in Quantico, Virginia. 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. In August 2013, Oshkosh delivered its first L-ATV JLTV prototype to

558-665: A communication network down to the company level. Tactical Communication Nodes in Increment 2 are the first step to providing a mobile infrastructure on the battlefield. Combined with the Points of Presence (PoP), Vehicle Wireless Packages, and Soldier Network Extensions, Increment 2 enables mobile mission command from division to company in a completely ad hoc, self-forming, self-healing network. The WIN-T Increment 2 addition of embedding communications gear in select vehicles brings Secure Internet Protocol Router (SIPR) and CENTRIX (CXI) into

651-491: A definitive agreement to acquire Hinowa S.p.A., a privately held international company and manufacturer of track-based aerial work platforms, mini dumpers, lift trucks and undercarriages. Once complete, Hinowa will become part of the Oshkosh Access Equipment segment. The current and recent main defense products of Oshkosh Defense include the following: Products for these market segments are produced under

744-610: A deployable mission command system that enables situational awareness and maintains real-time tracking of Army watercraft distribution assets and their cargos. HCCC is a new deployable and tactically mobile system used to manage harbors, ports and beaches—the littoral environment—in Overseas Contingency Operations. It provides the Army logistician the sensors and knowledge management tools to establish and maintain situational awareness and mission command even in

837-502: A digital environment. Before the widespread availability of satellite communications technology, battlefield communications required the installation and maintenance of relay towers and cables, limiting range and flexibility of missions. The outdated MSE could no longer keep up with the pace of battle. WIN-T was conceived to solve this problem and to enable mobile mission command on the battlefield. The systems development and integration for Project Manager WIN-T began in 2002. Consequently,

930-569: A four-door configuration. Standard U.S. military M-designators are applied base vehicle platforms when outfitted to a specific Mission Package Configuration. These currently are: This features a new Duramax engine. Oshkosh Corporation Based in Oshkosh, Wisconsin , the company employs approximately 15,000 people around the world at 130 facilities in 24 countries. It is organized in four primary business groups: access equipment, defense, fire and emergency, and commercial. Founded in 1917 as

1023-517: A full range of data, voice and video communications at-the-quick-halt, which allows soldiers to simply pull over on the side of the road to communicate without wasting valuable time setting up complicated infrastructure. WIN-T Increment 1 is a Joint compatible communications package that allows the Soldier to use advanced networking capabilities, and is also interoperable with current force systems and future increments of WIN-T. WIN-T Increment 1a upgrades

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1116-441: A highly dispersed force over isolated areas. Building on previous increments, it will support full network planning and execution while on-the-move for maneuver, fires and aviation brigades. WIN-T Increment 3 also introduces the aerial tier to enhance reliability. WIN-T Increment 3 provides full network mobility and introduces the air tier creating a three-tiered architecture: traditional line-of-sight (terrestrial), airborne through

1209-404: 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. Oshkosh and partner Northrop Grumman submitted an unsuccessful bid for the JLTV technology development phase in 2008. Limited details were disclosed about the bid other than that the armor was developed by Plasan and

1302-400: A lithium-ion battery pack. In a limited user test (LUT) c.  2016 , the L-ATV demonstrated reliability of 7,051 "Mean Miles Between Operational Mission Failure", more than the Humvee and either other JLTV competitor. The L-ATV offers protection levels greater than those of up-armored HMMWVs and comparable to those of original MRAP class designs, but in an overall vehicle package that

1395-664: A live fire demonstration. The Marines completed two test cycles in October and November with one live fire demonstration. The Army released the final JLTV RfP in December 2014. 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. In August 2015,

1488-625: A mission demands. Capabilities Secure, Mobile, Anti-Jam, Reliable, Tactical - Terminal (SMART-T) provides tactical users with secure, survivable, anti-jam, satellite communications in a High Mobility Multi-Purpose Wheeled Vehicle (HMMWV) configuration using equipment to communicate at Extremely High Frequency (EHF) and processes data and voice communications at both low and medium EHF data rates. SMART-Ts are being modified to communicate over Advanced EHF (AEHF) satellite, which significantly increases data rates for future tactical communications networks. The SMART-T makes it possible for Soldiers to extend

1581-408: A permanent part of their tactical wheeled vehicle fleets. At the conclusion of operations, many thousands were either scrapped, adapted for other roles, or offered for sale/transfer to allies. Ultimately U.S. armed forces would retain over 11,100 MRAPS, just over 6,350 of these Oshkosh M-ATVs. Since up-armoring Humvees and buying MRAPs addressed specific issues but created gaps in vehicle capabilities,

1674-407: A program, the Pentagon said. These reflect actual costs so far and anticipated costs in the future, with all estimates in fully inflated then-year dollars. The Army expected the JLTV program to cut about five years off of the total program and save about US$ 5.9 billion, as Oshkosh's final competitive bid was low enough so the Army decided to "buy to budget" and get more platforms each year, which shrunk

1767-554: A result, the Army, along with Congressional assistance in the form of supplemental funding, shifted their priority from WIN-T to JNN. The fielding of JNN started in 2004 to support operations in Iraq and Afghanistan. As the result of a Nunn-McCurdy restructure on June 5, 2007, the WIN-T program was restructured into four separate Increments. The JNN program was integrated into WIN-T as Increment 1. Further development led to Increment 2, which

1860-663: A separate second JLTV contract, but the original contract costings and timelines remain. Final orders are to be placed in November 2023, with deliveries permitted until late 2025, but expected to conclude mid-2025. The JLTV A2 re-compete award will allow for an additional 15,586 JLTV. JLTV deliveries to the Army commenced in January 2019. That month the 1st Armored Brigade Combat Team , 3rd Infantry Division at Fort Stewart , Georgia, and Marine Corps 3rd Battalion, 8th Marines , 2nd Marine Division at Camp Lejeune , California, became

1953-436: A single award, five-year requirements type contract, with five one-year options on a Cost-Plus Fixed-Fee and Firm-Fixed Price basis. The projected contract value is $ 7.3 billion with original contract award pricing retained (plus inflation), and the award is expected to call for a maximum of 15,425 A2 JLTV and 6,000 JLTV Trailers, with deliveries to commence 18 months after the contract award. In addition to Oshkosh, respondents to

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2046-438: 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 . Smoke grenade launchers for self-defence can also be fitted if required. The JLTV family and its nomenclature evolved throughout

2139-652: A system of broadcast sites with multiple receive suite types. Capabilities The Standardized Integrated Command Post System (SICPS) provides commanders with integrated Command Post capability including all supporting equipment and tools to enhance the mission command decision-making process across all phases of the operation. SICPS provides fully integrated, digitized, and interoperable Tactical Operations Centers for use by joint, interagency and multinational Soldiers and civilian crisis management teams. It includes legacy Command Posts (CP), Command Post Platforms, shelters, common shelters, and fixed CP facilities. SICPS consists of

2232-546: Is a component of Program Executive Office Command, Control and Communications-Tactical in the United States Army . PM WIN-T has been absorbed into PM Tactical Networks as Product Manager for Mission Networks. PM WIN-T designs, acquires, fields and supports tactical networks and services for US Army Soldiers, most notably the WIN-T suite of communication technologies. PM WIN-T provides the communications network (satellite and terrestrial) and services that allows

2325-480: Is bridging gaps in C4ISR created by rugged terrain and sparse infrastructure by deploying these transportable commercial-off-the-shelf Very Small Aperture Terminal (VSAT) satellite terminals that can deploy much more quickly than their traditional counterparts. SNAP terminals provide reliable satellite communication access and take advantage of commercial equipment to expedite the fielding process. They provide access to

2418-405: Is considerably smaller and lighter than vehicles procured under MRAP procurement. The JLTV armor is modular with an A-kit and a B-kit. The A-kit, which is installed during production, is primarily fixings for add-on armor but can include small amounts of armor fitted in difficult-to-reach areas. The B-kit is essentially the add-on armor, this added when required and as a modular add-on. According to

2511-1109: Is headquartered in McConnellsburg, Pennsylvania; the Defense division in Oshkosh, Wisconsin ; the Fire & Emergency division in Appleton, Wisconsin ; and the Commercial division in Dodge Center, Minnesota . Oshkosh products and services are sold in more than 150 countries around the globe. The company also maintains a global service network. Oshkosh Corp. manufactures, distributes, and services products under ten brands: Oshkosh Defense, JLG , Pierce , McNeilus , Jerr-Dan, Oshkosh Airport Products, Pratt Miller, Frontline Communications, London Machinery Inc., and IMT. Products include JLG and SkyTrak brand telehandlers , wheeled and tracked boom lifts , and other lifting equipment. In November 2022, Oshkosh announced it had entered into

2604-545: 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. Motive power is provided by a digitally-controlled Gale Banks Engineering 866T V8 turbodiesel, based on the architecture of the General Motors Duramax L5P . Power output is 400 hp (298 kW; 406 PS) and 850 lb⋅ft (1,152 N⋅m) of torque. In commercial use, power output of

2697-413: Is the Soldier's primary means of reach-back communications. Phoenix/SHF is a tactical satellite terminal that operates using various military and commercial frequencies and allows Soldiers to transmit and receive high bandwidth voice, video and data similar to shipboard communications. It is designed to operate 24 hours per day, seven days per week and provides assured and reliable communications throughout

2790-585: The Iraq War . The primary tactical wheeled vehicle used by the U.S. military at the start of the war was the Humvee . However, most were unarmored and the type (including armored examples) incurred heavy losses when improvised explosive devices (IEDs) began being employed by insurgents. The initial response was to add armor, or more armor to armored models, and primarily on the sides. This improved side protection against direct fire and associated threats, but since

2883-519: The Joint Network Node (JNN) network, as an outgrowth of the 3rd Infantry Division Operational Needs Statement, was developed to bridge the gap between MSE and the "full" on-the-move WIN-T network capability. The JNN network provided battalion-level and above with the ability to connect to the Army's digitized systems, voice, data and video via satellite Internet connection at-the-quick-halt. It obtained instantaneous battlefield success. As

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2976-498: 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 have

3069-637: The AM General High Mobility Multi-purpose Wheeled Vehicle (HMMWV) on a one-for-one basis. It is now suggested that the JLTV will partially replace the HMMWV. The L-ATV was designed to deliver a level of protection comparable to that of heavier and less maneuverable Mine Resistant Ambush Protected (MRAP) class designs, these having more protection from blast than up-armored HMMWVs which they were delivered to replace on deployed operations. In August 2015,

3162-479: The Army and 5,500 for the Marines. In January 2017, the U.S. Air Force announced it was considering acquiring JLTVs for its security forces that protect missile launch facilities. The vehicles are used by security forces, explosive ordnance disposal teams, para-rescue and personnel recovery units, tactical air control party teams, and special tactics forces. In its 2018 budget the Pentagon requested $ 1.143 billion for

3255-461: The Army and Marines. As part of the original JLTV base award in August 2015, an initial 201 JLTVs for the test and evaluation phase were ordered. The 657-vehicle order is an exercised option from the program's eight option years. Initial USMC operating capability was stated to be delayed by about one year to the first quarter of FY2020, with procurement by the Marines complete by FY2022. In March 2016,

3348-897: The Army embarked on the acquisition of the Mobile Subscriber Equipment (MSE) system, at an overall cost of more than US$ 4   billion (equivalent to $ 11.332   billion in 2023), to fill communications requirements from division down to the battalion level. MSE filled tactical telephone and switchboard requirements with a smaller, more mobile switching capability than had previously been used. However, military operations in Desert Storm in 1991, as well as Operation Enduring Freedom in Afghanistan in 2001 and Operation Iraqi Freedom in 2003 revealed inadequacies in MSE to support highly mobile and dispersed forces in

3441-473: The Army for government testing. The four-door variant (which has two base platforms – Close Combat Weapons Carrier (CCWC) and the General Purpose (GP)) and two-door Utility Variant were provided for evaluations. In July 2014, Oshkosh announced the L-ATV had completed 200,000 miles and all requirements for reliability, availability, maintainability (RAM) testing. In November 2014, Oshkosh announced

3534-503: The Army selected the Oshkosh L-ATV as the winner of the JLTV competition. The company was awarded a $ 6.75 billion low-rate initial base contract with two years of low-rate Initial Production (LRIP), originally three, and eight option years to procure the first 16,901 vehicles for both the Army and Marines. The Army initially declined to detail why the L-ATV was chosen over its competitors, likely owing to anticipations of protests from

3627-521: The Army's global network. The RHNs operate "in sanctuary," or out of the fight zone, and were designed to provide division, brigade combat teams and below early access to the Global Information Grid, the infrastructure and services that move information through the global network. The RHN gives the Soldier in the field immediate access to secure and non-secure internet and voice communications, and it allows them to do their job anywhere on

3720-547: The Army's tactical communications network backbone, as well as the transport medium for theater-based Network Service Centers, which are the basic building blocks for the Army's global network infrastructure. RHNs provide satellite, voice and data services to support forces as they flow into a theater of operations, including domestic disaster relief, and enable deployed units to connect to Department of Defense (DoD) networks. RHNs innovatively use baseband and satellite communications capabilities that enable regionalized reach-back to

3813-669: The Command Center System; and the Trailer Mounted Support System (TMSS). Capabilities Harbormaster Command and Control Center (HCCC) provides synchronization and control of Army watercraft distribution assets to ensure that water delivery of assets is precise, flexible and responsive to sustaining tailored forces operating in a dynamic environment. The HCCC program provides the US Army Harbormaster Detachments with

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3906-663: The JLTV program in November 2006; this began a 13-month Concept Refinement phase which is a pre-systems acquisition process designed to further develop the initial concepts resident in the Initial Capabilities Document. The Concept Refinement phase also includes an Analysis of Alternatives . At the conclusion of the Concept Refinement phase in December 2007, the Joint Program Office JLTV project manager intended to transition

3999-551: 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 a basic 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

4092-612: The JLTV requirement of 14,000 lb (6,400 kg), almost one-third the weight of the heavier MRAP (4x4) models, and almost half the weight of the original MRAP models. Payload allowance for the JLTV in Combat Tactical Vehicle (CTV) configuration was four passengers and 3,500 lb (1,600 kg) of cargo, and in Combat Support Vehicle (CSV) configuration was two passengers and 5,100 lb (2,300 kg) of cargo. The base L-ATV does not have

4185-647: The Jerr-Dan (towing and recovery vehicles), Pratt & Miller (engineering and product development), Frontline Communications (media communications and similar), McNeilus (refuse/garbage and concrete mixers), IMT (field service vehicles and mounted cranes), and London (concrete mixers). Oshkosh will also produce the U.S. Postal Service's Next Generation Delivery Vehicle (NGDV). Since 1989, Oshkosh has completed nineteen acquisitions and three divestitures: Warfighter Information Network-Tactical PM WIN-T ( Project Manager Warfighter Information Network-Tactical )

4278-593: 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

4371-587: The L-ATV was selected as the winner of the JLTV program. The first JLTV delivery order was placed in March 2016 with the U.S. Army ordering 657 examples. Overall requirements have fluctuated, but as of January 2022 were stated by Micheal Sprang, JLTV Project Director to be 49,099 for the Army; approximately 12,500 for the Marine Corps; 2,000 for the Air Force (dependent on funding); and approximately 400 for

4464-626: The Navy. The JLTV achieved initial operating capability in the U.S. Marine Corps in 2019. The Army recompeted the right to manufacture the JLTV beginning with the A2 variant. In 2023, the Army selected AM General. Oshkosh expects to produce JLTVs into early 2025 and retains the right to produce JLTVs for direct commercial sale. The idea for the Joint Light Tactical Vehicle (JLTV) first emerged in 2006 from threats experienced during

4557-552: The Oshkosh Common Council approved a proposal to sell part of the century -old Lake Shore Golf Course along the shore of Lake Butte des Morts to Oshkosh Corp. for its new headquarters. On November 22, 2017, the Oshkosh Corporation announced it would build the new headquarters on the golf course. The city plans to redevelop the rest of the golf course into a new public space. On February 7, 2018,

4650-702: The Pentagon announced that the total program costs had dropped 19.32%, from $ 30.574 billion to $ 24.668 billion "due primarily to revised estimates for unit costs of vehicles and kits based on realized savings", which accounted for a $ 3.7 billion decrease. A stretched out procurement "due to budget adjustments and revised assumptions regarding the maximum buy profile year" decreased costs by $ 1.28 billion, and several other changes – such as for cost estimation methodologies and indices – accounted for another $ 921 million decrease. The total cost estimates include "research and development, procurement, military construction, and acquisition-related operations and maintenance" associated with

4743-454: The Pentagon's JLTV funding request totaled US$ 1.641 billion to procure 2,530 vehicles for the Army, 1,398 for the Marine Corps (with 3,986 more between FY2021 and FY2024), 140 for the Air Force, and 22 for the Navy. As of May 2019, the Army had not changed its approved acquisition objective of 49,099 JLTVs. In July 2020, Oshkosh stated that over 7,500 JLTVs had been delivered to the U.S. Army, U.S. Marine Corps, U.S. Air Force, and U.S. Navy since

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4836-455: The Pierce, Oshkosh, Frontline and Jerr-Dan brands, and include pumpers , aerials , tankers , wildland fire appliances , Striker ARFF vehicles , airport crash trucks , snow plows , and various configurations of wreckers and recovery trucks, ambulances /medical vehicles, and police / homeland security vehicles. Oshkosh produces for the commercial/civil market a variety of products under

4929-474: 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 was not a requirement of the JLTV program. A hybrid electric JLTV was unveiled in January 2022, this fitted with

5022-559: The RfP were expected to include AM General, GM Defense, and Navistar. Oshkosh maintains the rights to produce JLTVs for direct commercial sale. In February 2023, the Army selected the AM General bid. Oshkosh submitted a protest of the award, which GAO denied. Oshkosh expects to produce JLTVs into early 2025. The L-ATV is based around Oshkosh's TAK-4i (i = intelligent) independent suspension system. Vehicles fitted with an earlier version of

5115-619: The U.S. Army announced that the Family of Medium Tactical Vehicles A2 (FMTV A2) contract had been awarded to Oshkosh Defense. Oshkosh was already building the FMTV A1P2, having been awarded this contract in August 2009. As of August 2021, Oshkosh has built around 40,000 FMTVs for the US military and others. In February 2020, Oshkosh Corporation was named one of the 2020 World's Most Ethical Companies by Ethisphere . In February 2021, Oshkosh Defense

5208-482: The U.S. rapidly procured some 29,000 Mine Resistant Ambush Protected (MRAP) vehicles, including the Oshkosh M-ATV for use in Iraq and Afghanistan . While MRAPs offered superior protection from IEDs, especially underbody blasts, they were significantly larger and heavier and had relatively poor off-road mobility. The military incorporated MRAPs in response to operational needs, but never intended them to become

5301-619: 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. 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. The Oshkosh M-ATV , which

5394-930: The Warfighter to send and receive information in tactical situations. WIN-T is the transformational Command and Control system that manages tactical information transport at theatre through Company Echelons in support of full spectrum Army operations. Besides WIN-T Increments 1, 2, and 3 (WIN-T), PM WIN-T is also responsible for the following systems, among others: the Area Common User System Modernization (ACUS MOD); Regional Hub Nodes (RHN); SIPR/NIPR Access Points (SNAP); Deployable Ku Band Earth Terminals (DKET); Secure, Mobile, Anti-Jam, Reliable, Tactical - Terminal (SMART-T); Phoenix/Super High Frequency (SHF); Global Broadcast Service (GBS), Standardized Integrated Command Post System (SICPS); and Harbormaster Command and Control Center (HCCC). In 1985

5487-594: The Wisconsin Duplex Auto Company, the company was created to build a severe-duty four-wheel-drive truck . After the first prototype was built, the company began to develop rapidly. This first four-wheel-drive truck, known today as "Old Betsy", is still owned by Oshkosh Corporation and housed in the new Global Headquarters building in Oshkosh. The vehicle still runs and is used frequently in demonstrations and parades. The first mass-produced truck

5580-429: The addition of a secure networking package on existing Tactical Vehicles. This package employs military and commercial satellite connectivity and line-of-sight (terrestrial) radios and antennas to achieve end-to-end connectivity and dynamic ad hoc mobile networking operations. WIN-T Increment 2 extends the network to company level for maneuver brigades for the first time. WIN-T Increment 2 increases mobility and provides

5673-420: The chassis was not designed to handle any further additional weight, there was little room for underbody protection. The added armor weight greatly reduced remaining useful payload capacity (within max gross weight), negatively impacted off-road mobility, compromised vehicle reliability, and greatly increased their maintenance needs (frequency, labor and parts costs). To combat increasing numbers of IED attacks,

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5766-570: The company designed and built the U-30 tow tractor , 45 of which were built for the U.S. Air Force to tow the Lockheed C-5 Galaxy transport aircraft. In 1976, the company won a U.S. Army contract to supply 744 M911 heavy equipment transporters , the first in a long line of U.S. Army contracts that now sees Oshkosh Defense as the sole supplier of medium and heavy tactical trucks to the U.S. Army and Marines. On August 25, 2015, Oshkosh

5859-417: The development process and to date the U.S. Army has allocated M designations to four individual JLTV configurations. The JLTV family now consists of three base vehicle platforms, Utility (JLTV-UTL), Close Combat Weapons Carrier (JLTV-CCWC) and General Purpose (JLTV-GP). The Utility base vehicle platform is a two-door configuration, the General Purpose and Close Combat Weapons Carrier base vehicle platforms are

5952-483: The engine was diesel electric . At AUSA 2011, Oshkosh suggested that following then recent program developments, L-ATV would be offered to meet the recently revitalized JLTV's EMD (Engineering & Manufacturing Development) phase. In 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

6045-647: The engineering and manufacturing development phase were not limited to the winners of the TD phase. At least six teams submitted bids. In August 2012, the Army and Marine Corps selected the Oshkosh Defense L-ATV, Lockheed Martin JLTV , and AM General BRV-O , as the winners of the EMD phase. They were awarded a contract to build 22 prototype vehicles. Each company delivered 22 vehicles and six trailers to Aberdeen Proving Ground , Maryland , and Yuma Proving Ground , Arizona . Previous testing had already put

6138-492: The first quarter of FY 2025. The Marine Corps declared initial operational capability for the JLTV in August 2019. JLTV totals have varied over time and numerous suggestions as to ultimate totals and production increases/decreases have been touted, but as of January 2022 JLTV requirements were: Army – 49,099 (this figure has remained relatively constant); Marine Corps – 12,500 (approx.); Air Force – 2000 (dependent on funding); Navy (approx. 400). In terms of contracts and orders,

6231-555: The first respective units equipped. In June 2019, the Army approved the JLTV program's transition into full-rate production (FRP). The Marine Corps declared initial operational capability for the JLTV in August 2019, ahead of the scheduled June 2020 date. The Marines had previously announced in January 2019 that its first JLTV had fielded that day at the School of Infantry West at Camp Pendleton, California , with around 1,000 further JLTVs scheduled to be fielded during FY2020. For FY2020

6324-597: The former Joint Network Node (JNN) satellite capability to access the Ka-band defense Wideband Global Satellite (WGS), reducing reliance on expensive commercial Ku-band satellite. WIN-T Increment 1b introduces the Net Centric Waveform (NCW), a dynamic waveform that optimizes bandwidth and satellite utilization and Colorless Core technology, which further enhances security. Capabilities: WIN-T Increment 2 provides networking on-the-move (OTM) capability through

6417-542: The globe. To provide tactical users with secure, reliable connectivity worldwide, the Army has positioned RHNs in five separate strategic regions: Continental United States (CONUS) East and CONUS West, Central Command, European Command, and Pacific Command. Capabilities Certain locations in theater create unique satellite communication requirements that cause the need for SIPR/NIPR access points (SNAP) to be fielded to augment current Program of Record solutions. Project Manager Warfighter Information Network-Tactical (PM WIN-T)

6510-721: The higher level headquarters level, and their role is to transmit tactical communications information out of theater. Some of the DKETs take on dual roles to hub for smaller earth terminals and also to pass along other communication traffic. DKETs also are providing hub services for disadvantaged forward operating bases. DKETs are satellite terminals designed for use at larger hub locations. They support commercial Ku-Band frequencies, and have recently been certified for Ka and X band capability to take advantage of U.S. military satellites. They are highly transportable, self-contained and can establish headquarters-level, network-hub connectivity anywhere

6603-508: The initial JLTV contract award in summation had a potential value of US$ 6.749 billion and called for a maximum of 16,901 JLTVs. The second and follow-on sole source to Oshkosh contract allows for 6,262 JLTVs to be ordered by November 2023. In September 2020 a Justification and Approval (J&A) for up to an additional 6,262 JLTVs was granted, the original notice published in June 2020. The up to 6,262 JLTVs approved will technically be delivered under

6696-577: The integration of approved and fielded mission command and other C4ISR systems technology into platforms supporting the operational needs of the current heavy, light, and Stryker Brigade Combat Team forces as well as requirements of the future force. SICPS consists of various systems, specifically the Command Post Platform, which includes the Command Post Local Area Network and Command Post Communications System;

6789-518: The losing bidders. Lockheed Martin protested the award in the Court of Federal Claims, but withdrew it February 2016. potentially as a result of the release of JLTV testing data showing that the L-ATV lasted nearly six times longer between significant breakdown than Lockheed's vehicle. The first delivery order for JLTV was announced in March 2016 with the U.S. Army ordering 657 JLTVs, along with kits and support. The $ 243 million order included vehicles for

6882-478: The network PoP greatly enhanced the ability of 2-4IN to maintain network access, increasing situational awareness and threat warning while on the move and at the halt during multiple week-long, long range expeditionary advising operations with the Afghan National Army . Capabilities: WIN-T Increment 3 will provide the fully mobile, flexible, dynamic tactical networking capability needed to support

6975-631: The production contract was awarded in 2015. This order brought the total of JLTVs ordered for US forces to date to 15,052. In February 2021 Oshkosh announced the company had produced its 10,000th JLTV, and had received orders for 18,126 JLTVs in contracts totaling more than $ 6 billion. The first National Guard fielding of JLTV was the 19th SF in 3QFY21. As of April 2022, 15 JLTV delivery orders had been placed: (all orders include unspecified quantities of training, support, kits and/or trailers) U.S. Army and Marines orders are for around 19,150 JLTVs as of 2022. In July 2019 an initial Sources Sought notice

7068-496: The program directly into the engineering, manufacturing, and development phase. As the milestone approached, it became clear that the Under Secretary of Defense for Acquisition and Sustainment would not support the JLTV program entering into the acquisition process at that time. He denied the request and instructed the Army and the Marine Corps to develop a more vigorous Technology Development (TD) phase. The DoD released

7161-427: The program. The DoD requested 2,110 JLTVs for the Army, 140 for the Air Force, and 527 for the Marines. In June 2017 the Marines revealed they wished to adjust their acquisition objective for JLTV by 65% to up to 9,091 vehicles. In early 2018 the Marines 2018 planning objective for JLTV was disclosed to be 9,091, although funding (as of April 2018) allowed for only 7,622 JLTVs through FY2023, with deliveries concluding

7254-564: The range of their network in such a manner that communications cannot be jammed, detected or intercepted. Soldiers at the brigade echelon and above can send text, data, voice and video communications beyond their area of operations without worrying that the information will fall into the hands of enemy forces. Capabilities Phoenix/Super High Frequency (SHF) provides multi-band capability in the SHF range that operates over commercial and military SHF satellites for Army expeditionary signal battalions and

7347-585: The standard Duramax L5P engine is currently up to 445 hp (332 kW; 451 PS) and 910 lb⋅ft (1,234 N⋅m). An Allison 2500SP six-speed fully automatic transmission is fitted to all JLTV. 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,

7440-652: The system, include the Oshkosh Medium Tactical Vehicle Replacement (MTVR), Oshkosh Logistic Vehicle System Replacement , 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. The majority of systems supplied pre-JLTV have been coil-sprung. The TAK-4i version fitted to the L-ATV remains undisclosed, but

7533-506: The tactical and strategic networks for mission command, call for fire, Medevac and information exchange. SNAPs are a key communications component for units, providing secure beyond-line-of-sight communications at the company level and below. SNAPs are designed to provide satellite communications to small units at remote forward operating bases where they are unable to use terrestrial radios due to issues with terrain or distance. Capabilities Deployable Ku Band Earth Terminals (DKET) are used at

7626-406: The total length of the contract and increased cost avoidances accrued each year. The Pentagon FY2017 requested budget included US$ 587.5 million to procure 1,828 JLTVs for the Army and US$ 113.2 million to procure 192 for the Marines. About US$ 34.7 million was requested for research and development between the Army and Marines' JLTV programs. Procurement objectives at this time remained 49,099 JLTV for

7719-824: The use of Unmanned Aerial Systems and other airborne platforms; and beyond-line-of-sight (satellite). Additionally WIN-T Increment 3 introduces embedded Joint Command, Control, Communications, Computers, Intelligence, Surveillance (JC4ISR) radios into the platforms. Capabilities: ACUS MOD supports network upgrades for the Army's transformation to the current force, including secure wireless communications between Soldier's vehicles. It provides Internet network management capabilities, as well as integrated voice video and data services. It also allows for beyond-line-of-sight transmission capability, which enables Soldiers to communicate with one another from separate physical locations. Capabilities Regional hub nodes (RHN) serve as transport nodes for Warfighter Information Network-Tactical (WIN-T),

7812-525: 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 field testing during 14 months of government performance testing. Testing

7905-527: The warfighting platform. Select staff have the ability to maneuver anywhere on the battlefield and maintain connectivity to the network. WIN-T Increment 2 began fielding in October 2012 to the 4th Brigade Combat Team (4th BCT) of the 10th Mountain Division at Fort Polk, LA. The system made its combat debut in Afghanistan in July 2013 with the 2nd Battalion, 4th Infantry Regiment (4BCT/10MTN). In particular,

7998-520: The world. Capabilities Global Broadcast Service (GBS) provides high-speed broadcast of large-volume information products such as video, imagery, maps and weather data to deployed Tactical Operations Centers and garrisoned forces worldwide. This wealth of critical information informs and educates the Soldier. GBS provides high-speed, one way flow of multimegabit video and data products including National Television Standards Committee (NTSC) video, large data files, map files and web products. GBS operates as

8091-725: Was awarded the U.S. Postal Service 's Next Generation Delivery Vehicle (NGDV) mail truck contract for between 50,000 and 165,000 units over ten years, with production start targeted for 2023. The fleet will include low-emissions internal combustion engine vehicles as well as battery electric vehicles (BEVs) and could be worth over $ 6 billion. Oshkosh Corporation is headquartered in Oshkosh, Wisconsin. It has manufacturing operations in eight U.S. states and in Australia, Canada, China, France and Romania, and through investments in joint ventures in Mexico and Brazil. The Access Equipment division

8184-482: Was awarded the U.S. military's Joint Light Tactical Vehicle contract. The initial JLTV award is valued at $ 6.75 billion for up to 16,901 vehicles. The procurement objective for JLTV stands at 49,099 Army and 9,091 Marines, with the Navy and Air Force also having smaller requirements. The estimated program cost is $ 47.6 billion. JLTV will partially replace the AM General Humvee . On November 7, 2017,

8277-406: Was first fielded in 2012. Funding re-allocation was debated by Congress in early June 2021. WIN-T Increment 1 provides networking at-the-halt capability down to battalion level (1a) with a follow-on enhanced networking at-the-halt (1b) to improve efficiency and encryption. WIN-T Increment 1 components reside at the theater, corps, division, brigade and battalion levels. WIN-T Increment 1 provides

8370-590: Was issued for the A2 JLTV recompete program. Four draft request for proposals (RFPs) followed, these on 3 April 2020, 11 December 2020, 30 April 2021, and 29 October 2021. In January 2022, a presolicitation notice was issued for the Joint Light Tactical Vehicle (JLTV) Family of Vehicles (FoV) Follow-On, the A2 contract. The planned period of performance for this contract is from September 2022 through September 2032. The awarded contract will be

8463-417: 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

8556-693: 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). In September 2013, full-pace, full-scope JLTV testing began at Aberdeen Proving Ground, Yuma, and Redstone Arsenal , Alabama . Oshkosh Defense first displayed the L-ATV at Association of the United States Army (AUSA) in Washington, D.C. in October 2011. The L-ATV had developmental origins that trace back to 2007 and Oshkosh/ Northrop Grumman 's failed JLTV proposal, with some sub-systems having

8649-569: Was the 2-ton Model A, with seven produced in 1918. The 3.5-ton Model B and 5-ton Model F followed. The Model TR, introduced in 1933, was a diversification for the company and was the first rubber tired earthmover ever built. The model 50-50, introduced in 1955, was the first truck created specifically for the hauling of concrete. The first aircraft rescue and firefighting (ARFF) W2206 With rollover snow plows or snow blowers were delivered to all branches of US military for airfield snow removal. Oshkosh has also produced aircraft tow tractors, and in 1968

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