User:Wheeler2014/sandbox

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Commando Jeep

The Commando Jeep is an ultralight tactical vehicle built to support small units performing national security missions across the spectrum of terrain conditions. Commando is a commercial off-the-shelf (COTS) vehicle utilizing the Jeep Wrangler with a factory installed common rail turbodiesel engine operating on JP-8 and global diesel fuels. [1][2] It’s a high mobility vehicle designed primarily for airborne forces, special operations forces, and combat engineers, and may be configured into various utility and specialized platforms including: technical vehicle, intelligence, surveillance, and reconnaissance, expeditionary support, force protection, man-optional robotics and route clearance. [1][2][3][4][5][6]

The Commando, produced in two-seat, four-seat, and pickup truck configurations, includes a roll over protective structure (ROPS), military bumpers, heavy-duty tie-downs, Kevlar reinforced tires, suspension enhancements, electrical, lighting and other tactical modifications. [7] It is certified for internal transport via CH-47 helicopters and other military transport aircraft. [8] The Wrangler has completed Nevada Automotive Test Center off-road vehicle performance evaluation [9][10], and has set world records [11][12] demonstrating its capabilities. [13][14] Commando Jeep completed the U.S. Army's Ultra Light Combat Vehicle (ULCV) platform performance demonstration (PPD). [15][16][17]

Originally created for U.S. military service in 1941, Commando returns Jeep to U.S. combat operations for the first time since Operation Just Cause in 1989. [18][19] Jeep Wrangler is assembled at the Toledo Complex in Ohio, and used by Hendrick Dynamics in North Carolina to build Commando Jeep. Manufactured in the United States, Commando complies with the Buy American Act [20][21].

Robotics and Payloads

While conducting the Global War on Terrorism, NATO-led International Security Assistance Forces encountered improvised explosive devices (IEDs) during Operation Enduring Freedom. As a result, the U.S. Department of Defense established the Joint Improvised Explosive Device Defeat Organization (JIEDDO) to develop counter-IED capabilities. [22]

The U.S. Army’s Communications-Electronics Research, Development and Engineering Center (CERDEC) Small Unit Support and IED-Defeat (SUSI) project utilized the Commando Jeep COTS platform for man-optional robotic vehicle with teleoperation and supervised autonomy, and to deploy advanced counter-IED technologies. [5][23] The goal of the project was “to provide light engineers and special operations forces with modular CIED/Force Protection/Engineering payloads for integration on a small remote/manned vehicle to help detect and neutralize improvised explosive devices (IEDs) and command wires (CWs) from a safe standoff. Integral onboard storage also helps lighten the load for dismounts.” [5]

Integrated modular-design payloads include situational awareness platform (SAP), EO/IR imaging cameras, remote fired anti-personnel obstacle breaching system (APOBS), ground penetrating radar (GPR), counter-mine rollers, surrogate small unmanned ground vehicle (UGV) deployment, operator on-the-move telerobotic interface suite, robotic manipulator arm, robotic boom grapple, A-frame crane, assault ladder, NATO pallet receiver, bustle racks, litter carriers, and HEPPOE multi-power unit with electric generator, welder, air compressor, and hydraulic tools circuits. [5][6][24]

Military Commercial Vehicles

Commercial vehicles utilizing body-on-frame chassis with solid axles have been adapted and deployed as military light utility vehicles around the world. [25][26][27] Examples include Israel’s AIL Storm, Land Rover Defender [28], Toyota Hilux and Prado [29][30][31][32][33], and Mercedes G-Wagen. [34][35] Many of these vehicles are in service with Five Eyes countries, including the Australian G-Wagon [36] and Perentie [37], Canadian Iltis [38] and LUVW [39], United Kingdom’s Snatch and Wolf [40][41], and the United States’ Marine IFAV [42], SOCOM NSCV [43], and Ranger RSOV [44].

The U.S. Army Materiel Command cites “somewhere between 60 and 90 percent of a [vehicle] platform’s lifecycle cost is in sustainment.” [45] Commercial vehicles include on-board diagnostics [46] that aid in expedient service and fleet repair, while existing global distribution networks provide vehicle sustainment parts, and ongoing factory development and engineering supports continuous improvement in vehicle efficiency and advancement of safety systems such as anti-lock braking, traction control, stability control [47][48], and active rollover protection. [49][50][51][52]

Commando is “…a commercial design motor vehicle modified to military specification to meet direct transportation support of combat or tactical operations, or for training of personnel for such operations,” meeting the U.S. Department of Defense definition for a tactical vehicle. [2][53] In accordance with trends in light tactical mobility and DoD guidance [54][55][56][57][58][59], Commando has been modified to meet U.S. military operational requirements that previously prevented commercial vehicles from being adopted for certain tactical applications [60]:

Mobility:

The vehicle has passed through the Nevada Automotive Test Center’s vehicle proving ground, which conducts military and government agency testing and evaluation. [9][61] Its features include a two-speed, ultra-low range four-wheel drive system, hill descent control, water fording, and selectable front and rear locking differentials. [1][2][62][63] Commando is a UTV capable in cross-country off-road as well as paved surfaces and highway conditions. Vehicle mobility has been validated in U.S. Army testing and field trials. [15]

Deployability:

The Commando operates on JP-8 fuel [64][65][66], as required by the U.S. Department of Defense’s Single Fuel Policy and U.S. Army Regulation 70-12, which standardizes one fuel type for all military and commercial equipment and materiel employed by ground forces. [67][68] Global sustainment is supported by Jeep’s worldwide distribution network [69] that includes over 100 countries spanning every continent except Antarctica. [70]

Transportability:

As required for operational readiness [71], Commando is transportable by fixed-wing military cargo aircraft such as a C-130 and C-17, by Helicopter Internal Air Transport in CH-47 per MIL-STD-209, and can meet the 4500-lbs maximum sling load rating for all variants of UH-60 including hot and high conditions per MIL-STD-1366. [71][72][73][74]

Survivability:

The Army reports that rollover is the leading cause of vehicle fatalities. [75] Commando is constructed with a chromoly roll over protective structure (ROPS) engineered to exceed FMVSS 216 load standards. [76] Integrated safety technology includes electronic stability control (ESC), of which four wheel anti-lock brakes (ABS) are a component, as well as electronic rollover mitigation (ERM). [15] Research shows “with four-wheel-drive train concepts, ESP [electronic stability program] delivers the expected safety benefits and excellent off-road functionality.” [77] Electronic stability control is a key safety technology built into the military’s JLTV ground vehicle and is included in HMMWV modernization efforts. [78][79][80][81][82][83]

Commando is traditionally unarmored, but provides a platform option for survivability through enhanced tactical mobility, [84] and allows forces to exploit unconventional avenues of approach. [56][24][85] Commando completed U.S. Army ATEC safety evaluation prior to deployment. [8]

Jeep in Military

The Jeep has a long record in military service. Bantam’s Reconnaissance Car (BRC) was the early jeep prototype later manufactured by Bantam, Ford and Willys during World War II for Allied Powers. [86] This model spawned direct adaptations by other nations, including Japan’s Toyota AK and BJ later J40 and J70 [33]; Russia’s GAZ-64 later UAZ-469 and UAZ Tigr [87][88]; Britain’s series Land Rover later Defender [40][41]; and China’s Beijing Jeep [89][90][91] later Brave Warrior, BAW XB [92] and Xiao Long XLW [93].

The Jeep M38 and later M151 MUTT were used by U.S. combat forces through the Invasion of Panama, and then replaced by the HMMWV. [94][95]

A Jeep J8 variant is assembled by the Arab Organization for Industrialization in Cairo, Egypt, and is used by some Middle Eastern countries, while the AIL Storm is built in Israel for use by Israeli Defense Forces. [96][97][98]

The U.S.-manufactured Commando is Jeep’s first return to U.S. combat operations since Operation Just Cause in 1989. [24][99]

Category:Airborne fighting vehiclesCategory:Military light utility vehiclesCategory:Military robotsCategory:Military trucks of the United StatesCategory:Off-road vehicles

References

  1. ^ a b c Berning, Zach. COMMANDO Tactical Vehicle. MotusWorld.com, 8 April 2014.
  2. ^ a b c d COMMANDO Tactical Vehicle. CommandoUSA.com, Retrieved 30 October 2014.
  3. ^ Dismounted Soldier Protection Roller (DSPR). Pearson-Eng.com, Retrieved 30 October 2014.
  4. ^ HIPPOS CPS (stand alone). Multipower.us, Retrieved 30 October 2014.
  5. ^ a b c d Weaver, Richard. Countermine/Counter-IED Overview. MSCOE Industry Day Forum, 29 August 2013.
  6. ^ a b Applications. CommandoUSA.com, Retrieved 30 October 2014.
  7. ^ Models. CommandoUSA.com, Retrieved 31 October 2014.
  8. ^ a b Safety. CommandoUSA.com, Retrieved 31 October 2014.
  9. ^ a b VTRCS Testing. NATC-ht.com, Retrieved 31 October 2014.
  10. ^ Special Report: Jeep 4x4 Systems. Chrysler Group Media Website. 8 August 2005.
  11. ^ Jeep Wrangler Unlimited Climbs Highest Volcano on Earth and Sets New Altitude World Record. Jeep: Auto Show News, Press Release, 3 April 2007.
  12. ^ Durham, Mark. Jeeps Reach Volcano’s Rim to Break Altitude Record. Wired.com 3 April 2007.
  13. ^ Ganz, Andrew. The 10 Most Off Road-Capable Trucks and SUVs You Can Buy New. LeftLaneNews.com, 25 October 2011.
  14. ^ Stewart, Ben. The 10 Best Off-Road Vehicles You Can Buy Right Now. PopularMechanics.com, Retrieved 31 October 2014.
  15. ^ a b c Hendrick Dynamics Participates in Ultra Light Combat Vehicle Demonstration. HendrickDynamics.com, 15 September 2014.
  16. ^ MCoE Warfighter Conference Mounted Requirements Division. U.S. Army Maneuver Conference Read Ahead. 21 August 2014.
  17. ^ Gourley, Scott. “Show up or shut up time” for Ultra Light Combat Vehicle creators. Military1.com, 16 April 2014.
  18. ^ Modern Rangers – Panama – Operation Just Cause 1989-1990. SuaSponte.com, Retrieved 2 November 2014.
  19. ^ Operation Just Cause. U.S. Army Center of Military History. History.Army.mil, p. 45.
  20. ^ Sec. 10a – American Materials Required for Public Use. U.S.C. Title 41 – Public Contracts. 2009.
  21. ^ Luckey, John R. Domestic Content Legislation: The Buy American Act and Complementary Little Buy American Provisions. Congressional Research Service. 25 April 2012.
  22. ^ About JIEDDO. JIEDDO.mil
  23. ^ Kotchman, Don. Counter-IED Review. Special Operations Technology. 15 September 2014.
  24. ^ a b c Versatility. CommandoUSA.com, Retrieved 31 October 2014.
  25. ^ Moore, Clayton. Light Mobility. Retrieved 2 November 2014.
  26. ^ Park, Barry. Tour of duty: Mercedes v Toyota v Land Rover v Jeep. Drive.com.au, 1 October 2011.
  27. ^ Briefing: Wheels of the elite. Jane’s Defence Weekly. Retrieved 30 November 2014.
  28. ^ Military Land Rover. AFM – Armed Forces of Malta. AFM.gov.mt, Retrieved 3 December 2014.
  29. ^ Toyota Land Cruiser, Japan. Army Technology. Army-Technology.com, Retrieved 2 November 2014.
  30. ^ Mizokami, Kyle. The Toyota Pickup Truck is the War Chariot of the Third World. Medium.com, 7 November 2013.
  31. ^ Toyota Land Cruiser. Army Technology. Army-Technology.com, Retrieved 3 December 2014.
  32. ^ Brooke, Lindsay. Why ‘people fall in love with’ old Toyota Land Cruisers. The New York Times. Online, 15 February 2005.
  33. ^ a b Land Cruiser Origin. Toyota Global Site. Retrieved 3 December 2014.
  34. ^ G-Wagon Military Vehicles. Mercedes Benz. MB-Military-Vehicles.com, Retrieved 2 November 2014.
  35. ^ Mercedes-Benz G-Wagen. Army Technology. Army-Technology.com, Retrieved 3 December 2014.
  36. ^ G Wagon. Australian Army. Army.gov.au, Retrieved 3 December 2014.
  37. ^ Department of Defence General Service Vehicle Fleet. Australian National Audit Office. May 1999.
  38. ^ Gordon, Bob. The history of the Volkswagen Iltis. Brant News. 21 September 2013.
  39. ^ G Wagon. Canadian Army. Army-Armee.forces.gc.ca, Retrieved 3 December 2014.
  40. ^ a b RWMIK Land Rover. British Army Website. Army.mod.uk, Retrieved 3 December 2014.
  41. ^ a b Land Rover Wolf 4x4 Military Vehicle. Army Technology. Army-Technology.com, Retrieved 3 December 2014.
  42. ^ Thompson, Jason. U.S. Marine Corps’ G-Wagen. Diesel Power Magazine. 1 May 2010.
  43. ^ Gourley, Scott R. Battelle Highlights Non-Standard Commercial Vehicles (NSCV) at SOFIC. DefenseMediaNetwork.com, 27 May 2013.
  44. ^ Gourley, Scott R. The Ranger Special Operations Vehicle (RSOV). Army Magazine. AUSA.org, 1 July 2014.
  45. ^ Parsons, Dan. Army Switches from Vehicle Procurement to Sustainment Mode. National Defense Magazine. Online, July 2014.
  46. ^ On-Board Diagnostics (OBD). US EPA. EPA.gov, Retrieved 3 November 2014.
  47. ^ FMVSS No. 126 Electronic Stability Control Systems. NHTSA, Final Regulatory Impact Analysis. March 2007.
  48. ^ Electronic Stability Control System Phase-In Reporting Requirements. U.S. Code of Federal Regulations. Title 49, Part 585 Subpart I.
  49. ^ Sedgwick, David. Top Suppliers, Global Industry Craves Megasuppliers. Automotive News. 17 June 2013.
  50. ^ A Guide to United States Motor Vehicle Parts Compliance Requirements. U.S. Department of Commerce National Institute of Standards and Technology. September 2012.
  51. ^ Lundegaard, Karen; Meckler, Laura. Regulators Push for Anti-Rollover System. The Wall Street Journal. Online, 1 February 2006.
  52. ^ Federal Motor Vehicle Safety Standards. U.S. Code of Federal Regulations. Title 49, Part 571 Standard No. 126.
  53. ^ Fleet Accountability. Property & Equipment Policy, OUSD (Acquisition, Technology & Logistics. Retrieved 3 November 2014.
  54. ^ Commercially Based Tactical Truck [COMBATT]. Global Security.org, Retrieved 28 October 2014.
  55. ^ Mulcaire, Jack. The Pickup Truck Era of Warfare. WarOnTheRocks.com, 11 February 2014.
  56. ^ a b Listening to the Warfighter. TARDEC, accelerate Magazine: Enhanced Mobility Edition, page 22. June 2014.
  57. ^ Better Buying Power. Department of Defense Acquisition, Technology and Logistics. BBP.DAU.mil, Retrieved 29 October 2014.
  58. ^ Weisgerber, M; Muradian, V; Mehta, A. Blurred Lines: Commercial, Defense Sectors Begin to Blend. DefenseNews.com, 3 August 2014.
  59. ^ Goure, Daniel. Defense Business Board Provides Roadmap for Reforming the Department of Defense. LexingtonInstitute.org, 29 July 2014.
  60. ^ Army Acquisition: Commercial Components Used Extensively in Tactical Trucks. U.S. Government Accountability Office. 26 September 1994.
  61. ^ Nevada Automotive Test Center Overview. NATC-HT.com
  62. ^ Rock-Trac® 4x4. Jeep.com, Retrieved 3 November 2014.
  63. ^ Jeep Trail Rated: Explore Off-Road Jeep Capabilities. Jeep.com, Retrieved 3 November 2014.
  64. ^ Brandt, Adam C.; Muzzell, Patsy A.; Sattler, Eric R.; Likos, William. Military Fuel and Alternative Fuel Effects on a Modern Diesel Engine Employing a Fuel-Lubricated High Pressure Common Rail Fuel Injection System. Army Tank Automotive Research Development and Engineering Center. 9 August 2011.
  65. ^ Zielinski, Steven. Overview of Necessary Modifications for Commercial Diesel Engines in Military Vehicles. U.S. Army TARDEC, 20 January 2012.
  66. ^ Alvarez, Ruben A.; Yost, Douglas M.; Wright, Bernard R. Evaluation of Korean-Manufactured Non-Tactical Vehicle JP-8 Conversion Demonstration Conducted by the 19th Theatre Area Army Command, South Korea. U.S. Army TARDEC Fuels and Lubricants Research Facility. 1 November 2000.
  67. ^ DoD Management Policy for Energy Commodities and Related Service. Department of Defense Directive 4140.25. 12 April 2004.
  68. ^ Fuels and Lubricants Standardization Policy for Equipment Design, Operation, and Logistics Support. U.S. Army Regulation 70-12. 19 July 2012.
  69. ^ International Site Locator. Fiat Chrysler Automobiles.
  70. ^ Affordability. CommandoUSA.com, Retrieved 31 October 2014.
  71. ^ a b Interface Standard for Lifting and Tiedown Provisions. Department of Defense MIL-STD-209. 22 February 2005.
  72. ^ Thoreson et al. System for Securing a Vehicle During Transport Against Movement Under Forces From Multiple Directions. United States Patent and Trademark Office: Patent No. 8714592. 6 May 2014.
  73. ^ Interface Standard for Transportability Criteria. Department of Defense MIL-STD-1366. 31 October 2006.
  74. ^ Information Paper: Ultra Lightweight Combat Vehicle (ULCV). U.S. Army Maneuver Conference Read Ahead. 13 August 2014.
  75. ^ Command Policy Memorandum G3-02 – Driver Training at the Tactical Driving Facility (TDF). Department of the Army, Headquarters, Joint Readiness Training Center.16 November 2012.
  76. ^ FMVSS No. 216: Roof Crush Resistance. Department of Transportation: Federal Motor Vehicle Safety Standards. Retrieved 5 November 2014.
  77. ^ Liebemann, EK; Meder, K; Schuh, J; Nenninger G. Safety and Performance Enhancements: The Bosch Electronice Stability Control (ESP). Robert Bosch Corporation Paper Number 05-0471, Page 5. NHTSA.gov/Research, Retrieved 24 November 2014.
  78. ^ JLTV Pathfinders: The Combat Tactical Vehicle (CTV) Technology Demonstrator. Defense-Update.com, November 2007.
  79. ^ TACOM, Joint Light Tactical Vehicle (JLTV) EMD Phase. PROCNET ACC Warren Procurement Network. 28 January 2013.
  80. ^ U.S. Marine Corps, HMMWV Roll-Over Stability Control System, Request for Information. FBO.gov, 9 November 2010.
  81. ^ TARDEC Public Affairs. Army and National Guard relationship increases resources, benefits nation. U.S. Army TACOM LCMC Community Report. 17 July 2014.
  82. ^ Mazza, Marcus; Rhoads, Matthew. Software-Based Electronic Stability Controller for Tactical Wheeled Vehicles. GVSETS Technical Paper, 16 August 2012.
  83. ^ Alef, Jason. Stability Control Helps Keep Vehicles Standing Tall. TARDEC, accelerate Magazine: Technology Supremacy Edition, page 51. April 2013.
  84. ^ Brannen, Kate. Mobility Vs. Survivability. DefenseNews.com, 7 June 2010.
  85. ^ Platform Performance Demonstration – Ultra Light Combat Vehicle (ULCV). Federal Business Opportunities. 26 March 2014.
  86. ^ Invention of the Jeep Historical Marker. ExplorePAHistory.com, Retrieved 8 November 2014.
  87. ^ UAZ-469 Light Utility Vehicle. Military-Today.com, Retrieved 8 November 2014.
  88. ^ UAZ Information. MadeInRussia.cz, Retrieved 8 November 2014.
  89. ^ BJ212. WeaponSystems.net, Retrieved 8 November 2014.
  90. ^ BAW BJ-212 (Beijing Jeep 212). ChinaAutoWeb.com, Retrieved 8 November 2014.
  91. ^ Williams, Gordon. Spinning Their Wheels in China. The New York Times. 19 November 1989.
  92. ^ XB628 – SUV Limited Edition Models. BAIC International.
  93. ^ Products. Xiao Long Auto.
  94. ^ M151 MUTT Light Utility Vehicle. Military-Today.com, Retrieved 8 November 2014.
  95. ^ HMMWV Background. AMGeneral.com
  96. ^ The Jeep J8: Egyptian Military Jeep Wrangler. AllPar.com, Retrieved 8 November 2014.
  97. ^ New Vehicles at DESi-2007. Defense-Update.com, Retrieved 8 November 2014.
  98. ^ Jeep J8 Production Begins at Arab American Vehicles Company. Fiat Chrysler Automobiles Press Release. 13 November 2008.
  99. ^ Jeep Commando Spotted in the Wild Here in Afghanistan. Reddit. 5 September 2014.
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