All over the world in different countries, cultures, tongues, and colors are people who have the same basic desire for happiness and respect from his fellow men. We are the same all over as members of the human race. If we honor each other's boundaries with propriety and consideration our voyage thru life can be rich in knowledge and friendship..........AMOR PATRIAE
PEOPLE AND PLACES
Thursday, June 20, 2019
Marines to equip trucks with LASERS guns: OR LIGHT ATTACK VEHICLE FITTED WITH LIGHTWEIGHT LASER WEAPONS
Marines to equip trucks with LASERS guns to shoot down enemy drones
Arsenal specialists at the Navy have big plans for their fellow Marine soldiers.
The Office of Naval Research believes the Marine Corps’ air-ground task forces are too vulnerable to potential attacks from drones flying overhead.
The jeep that can down a drone: US Navy reveals anti-UAV weapon that can fire lasers from a moving vehicle
Designed for use on light tactical vehicles such as the Humvee
Initial trials with low power lasers have already taken place
The 30kW system is expected to be ready for field testing in 2016
Enemy drones have become a major threat on the battlefield, and the UU Navy hopes a roof mounted laser could be the answer.
Its Ground-Based Air Defense Directed Energy On-the-Move program, commonly referred to as GBAD, allowing controllers to simply drive the weapon to a target.
Once drones are spotted, it can them shoot them out of the sky with a high powered laser.
Scroll down for video
The system will be able to spot and track drones, then shoot them out of the sky using a 30kw laser.
'We're confident we can bring together all of these pieces in a package that's small enough to be carried on light tactical vehicles and powerful enough to counter these threats,' said Brig. Gen. Kevin Killea, vice chief of naval research and commanding general, the Marine Corps Warfighting Laboratory.
The GBAD system is being designed for use on light tactical vehicles such as the Humvee and Joint Light Tactical Vehicle.
The navy hopes the system will provide an affordable alternative to traditional firepower to keep enemy unmanned aerial vehicles (UAVs) from tracking and targeting Marines on the ground.
'We can expect that our adversaries will increasingly use UAVs and our expeditionary forces must deal with that rising threat,' said Col. William Zamagni, acting head of ONR's Expeditionary Maneuver Warfare and Combating Terrorism Department.
Some of the system's components already have been used in tests to detect and track UAVs of all sizes. Later in the year, researchers will test the entire system against targets using a 10kW laser as a stepping stone to a 30kW laser.
'GBAD gives the Marine Corps a capability to counter the UAV threat efficiently, sustainably and organically with austere expeditionary forces.
'GBAD employed in a counter UAV role is just the beginning of its use and opens myriad other possibilities for future expeditionary forces.'
Some of the system's components already have been used in tests to detect and track UAVs of all sizes.
Later in the year, researchers will test the entire system against targets using a 10kW laser as a stepping stone to a 30kW laser.
The 30kW system is expected to be ready for field testing in 2016, when the program will begin more complex trials to ensure a seamless process from detection and tracking to firing, all from mobile tactical vehicles.
Spotter vehicles and a control car will allow the system to operate anywhere.
So the military research department has said that it would like to equip Marine ground vehicles with laser guns to shoot down adversary drones.
Problem: The Office of Naval Research believes the Marine Corps¿ air-ground task forces are too vulnerable to potential attacks from drones flying overhead
Solution: So the military research department has said that it would like to equip Marine ground vehicles with laser guns to shoot down adversary drones
‘Shortfalls of the Marine Corps' current low-altitude air-defense program of record have been identified with the advent of new threats, specifically Unmanned Aerial Systems (UASs),’ the Navy press release states.
As of now, the laser gun initiative is simply a research effort, according to the Office of Naval Research.
The department said it plans to award grants and contracts worth up to $400,000 for the Marine-truck lasers to be manufactured and outfitted.
The Navy’s idea is to get a laser cannon weighing less than 2,500 pounds mounted onto a Marine Humvee or similar vehicle.
According to the department’s specs, the cannon needs to provide a ‘minimum optical output power’ of 25 kilowatts, with an eye toward scaling up to 50 kilowatts, for a two-minute full-power blast.
Hardware that can adjust for all ‘environmental conditions’ Marines operate in is encouraged, though the Navy department declined to say how its researchers will accomplish such a feat.
Concept: The Navy's idea is to get a laser cannon weighing less than 2,500 pounds mounted onto a Marine Humvee or similar vehicle
The DPV was built by Chenowth Racing Products, Inc. The German Volkswagen Kübelwagen was the first military Light Utility Vehicle based on the Volkswagen Beetle which uses rear-wheel rather than four-wheel drive for mobility. Volkswagen components were also the basis for the post war dune buggy, and its layout is used in the DPV with rear-mounted air-cooled 200 hp (150 kW) Volkswagen engine. This makes the lightweight vehicle capable of accelerating from 0 to 30 mph (0–50 km/h) in only four seconds and able to travel at speeds of up to 80 mph (130 km/h). With its standard 21 gallon (79.5 litre) fuel tank, the DPV has a range of about 210 miles (338 km). An optional fuel bladder can extend the range to over 1,000 miles (1,610 km). Payload capacity is 1500 lb (680 kg).
The DPV is a variant of the Fast Attack Vehicle, which was developed during the 1980s as part of the United States Army's High Technology Light Division (9th Infantry Division). The HTLD was given carte blanche to develop doctrine, decide force structure, and design equipment by then Army Chief of Staff Edward C. Meyer. One of the pieces of equipment created was the Fast Attack Vehicle. Chenowth delivered 120 FAVs to the Army in 1982. HTTB (High Technology Test Bed) in the units in the 9th Infantry were first to deploy these vehicles. Along with light off-road motorcycles, the FAV was intended to provide a highly mobile component to the mostly foot infantry unit.
Eventually, the FAVs were replaced by Humvees in general military use, which did not provide nearly the speed nor extreme off-road capabilities of the FAVs. FAVs were transferred to special forces use where it has been largely replaced by the Light Strike Vehicle.
The original tests used commercial dune buggies modified to carry weapons such as TOW missiles and recoilless rifles. The recoilless rifles still had enough recoil to flip the lightweight dune buggies and were abandoned. The TOW missiles had much greater success, but they violated existing Army TOW doctrine. The Army had determined that a TOW needed a 3 man team to operate it. The DPVs could only carry a two man crew and they seemed perfectly capable of operating the TOW, but this would have meant revising Army doctrine and possibly changing TOW deployment throughout the Army. Fort Benning decided to offer a "superior" DPV design that allowed a third crewman. This design was rejected by the HTLD team and was never produced.
Fast Attack Vehicles and Special Operations Vehicles
Special Operations is, by its very nature, outside of standard millitary protocols and therefore often requires equipment that differs from standard issue. This is true for weapons and no less true for vehicles. The photos on this page are a sample of various types of such vehicles, some completely unique purpose built for Spec Ops and others based on standard vehicles but modified for Spec Ops requirements.
In the late 1980s, Air Force special tactics units needed an agile rescue and casualty evacuation vehicle to replace the jeeps then in use. Raceco, an off-road racing vehicle manufacturer, built the prototype in 1991. The RATT can carry up to six ambulatory patients on litters and two medical personnel (usually PJs). It is equipped with two 24-volt batteries to provide power for medical equipment and floodlights at each patient station. Between 1992-1994, Raceco built 14 RATTs.
M32 Multi-Shot Grenade Launcher (MGL)
The M32 MGL is a hand-held 6-shot grenade launcher in use with SOCOM and the US Marine Corps. Ideal for special operations forces, the M32 MGL can lay down a high volume of fire - all 6 rounds can be fired in 3 seconds.
The M32 MGL can fire all of the low-velocity 40mm grenades in use with the US military, including:
M406 High-Explosive round (H-E) for use against point and area targets - kill zone of 5 meters and a casualty-zone of 15.
M433 High-Explosive Dual Purpose (HEDP) able to engage lightly-armored, point and area targets
M576 Buckshot firing 20 pellets of buckshot
M670 Smoke Canopy designed to create a smoke screen at the point fo impace
M585 White Star Cluster flare grenade for signalling or illumination
M651 Tactical CS Grenade a tear gas grenade used in riot control
XM1060 40mm Thermobaric Grenade fuel-air explosive weapon which is devestating when fired into structures
HUNTIR High-altitude Unit Navigated Tactical ImagingRound, a round with a parachute and a IR CMOS Camera that beams back up to 7 minutes of video to a receiver on the ground.
A US Marine takes aim with a M32 grenade launcher. The launcher features a quad Picatinny rail system that can accept all standard accessories such as grips and illumination devices.
US DoD photo by Gunnery Sgt. Mark Oliva, 1st Marine Division
Photo showing a grenade being loaded into the M32's 6-round chamber. A mix of grenades can be loaded. Once loaded, a specific round can be selected for firing without the need to break open the chamber.
US DoD photo by Gunnery Sgt. Mark Oliva, 1st Marine Division
A US Marine checks the fall of a shot from his M32 MGL. Note the reflex sight mounted on the weapon. The sight compensates for the natural drift of the grenades fired from the M32 and can be used at night.
Special Operations Motorcycles
The use of motorcycles in the military goes back to before World War 2. Motorcycles have been used for administration / communication tasks such as the transfer of orders across the battlefield, for scouting / screening operations for larger vehicle formations, as a reconnaissance platform and as transport for special operations units.
Even though, in some cases, the 2-wheeled motorcycle has been usurped by the 4x4 quad-bikes, or all-terrain vehicles (ATV), the are still employed by U.S. Special Operations Forces (SOF).
Common features of U.S. SOF motorbikes include infrared headlights and brackets for holding the rider's personal weapon. Many are modified in order to decrease the motorcycle's signature such as being painted in infrared camoflague coatings or fitted with run-quiet mufflers.
This article features images and info on the various motorcycle employed by U.S. special operations forces...
Kawasaki KLR 250-D8
A pair of AFSOC Combat Controllers (CCTs) pictured riding Kawasaki KLR250-D8 motorcycles. CCT motorcycles can be airdropped from aircraft on special pallets under parachutes. The 75th Ranger Regimentalso use KLR-250s for administration and reconnaissance, along with newer, smaller Suzuki DS80 mini bikes.
sourced from public domain | US Air Force Photo by 1st Lt. Gabe Johnson
U.S. Marines with the 26th Marine Expeditionary Unit pictured before loading their Kawasaki M1030 motorcycles aboard a CH-46E Sea Knight helicopter, April 2005. The M1030 is a variant of the Kawasaki KLR 650 motorcycle. A more recent model, the M1030M1, can run on diesel, kerosene, JP4, JP5 and JP8 fuel.
sourced from public domain | U.S. Marine Corps photo
A relatively new adition to the SOF inventory, the Christini AWD is reportedly in use by U.S. Navy SEALs, U.S. Army Special Forces and other Special Operations units in Afghanistan. The Christini AWD is based on the Honda CRF450 and features a liquid cooled 450cc four-stroke diesel engine. more info : Christini AWD (www.christini.com)
sourced from public domain | U.S. Army photograph by Sgt. Todd Robinson
An AFSOC Special Tactics Combat Rescue Officer picture on a Kawasaki KLX110 0 mini bike at an airfield during a training exercise, 2012. AFSOC Combat Controllers use minibikes during airfield survey operations. They are smaller and lighter than the full scale Kawasaki / Christini motorcycles which also used by special tactics and are easier to deploy via parachute. Mini bikes are small and light enough to be attached to the sides of MH-6 helicopters and can be stowed on the rear of a GMV or similar vehicle. Aside from Air Force Special Tactics Teams, the Army's 75th Rangers also operate mini bikes, in the form of the Suzuki DS8.
Stealthy electric bikes will let fighters sneak up on the enemy
Silent Hawk is a hybrid engine bike for use in reconnaissance missions
For normal operations, the bike would use diesel, gasoline or jet fuel
Close to enemy lines, the bike would run almost silently on electricity
Logos Technologies says it Silent Hawk could travel over difficult terrain on its hybrid engine over a sustained period at 55 miles per hour (88km/h)
Testing the first operational prototype is expected in 18 months when more specifications will be revealed
An elite group of special forces silently race across enemy lines on stealth motorcycles that fighters would never suspect were coming.
That's the scenario the US military is hoping for with its development of the 'Silent Hawk' – a hybrid engine dirt bike for use in reconnaissance missions.
The idea is that for normal operations, the bike would use diesel, gasoline or jet fuel. But when it gets closer to the enemy, it would run almost silently on electricity.
Silent Hawk is a hybrid engine bike for use in reconnaissance missions. The idea is that for normal operations, the bike would use diesel, gasoline or jet fuel. But when it gets closer to the enemy, it would run almost silently on electricity
According to its makers, Virginia-based Logos Technologies, the bike's louder mode would be slightly louder than the average vacuum cleaner, reaching up to 75 decibels.
The company also says it Silent Hawk could travel over difficult terrain on its hybrid engine over a sustained period at 55 miles per hour (88km/h).
The combustion engine will also be removable, which means Silent Hawk can become all-electric, and also shed weight or take out problem parts.
On its own, the bike's battery can power it for up to 50 miles (80km). However, the concept is still under development and further specifications have yet to be announced.
Silent Hawk is based on Alta Motors' electric racing bike, the RedShift MX (pictured). It uses Alta's chassis, while the hybrid engine is being developed by Logos
SILENT ELECTRIC AIRCRAFT COULD BE ROLLED OUT IN 20 YEARS
The prototype two-seater electric aircraft by Airbus made its maiden flight in March last year
Spectators at air shows are usually impressed by the boom of fighter jets flying overhead.
But aeroplane fans at the Berlin Air Show were also wowed by the eerily quiet flight of Airbus Group's fully-electric aircraft last year.
The prototype two-seater made its maiden flight in March but only took to the skies in front of the public in May. It was designed from scratch, from its electrical propulsion and energy management system to its safety features.
Airbus hopes that the prototype is one step towards the aerospace industry using regional jets powered by hybrid electric engines, which would slash its carbon dioxide emissions.
The development of a regional plane, seating between 70 and 90 people that can take off and land using electric power, could take between 15 and 20 years, Airbus Group Chief Technology Officer Jean Botti told reporters in Munich.
The Defense Advanced Research Projects Agency (Darpa) began the motorcycle project last year, and has now granted its makers an award to develop it further.
Logos says it now plan 'to proceed with an aggressive Phase II program plan, with the goal of developing and testing the first operational prototype in only 18 months.'
Silent Hawk is based on Alta Motors' electric racing bike, the RedShift MX. It uses Alta's chassis, while the hybrid engine is being developed by Logos.
The U.S. Special Operations Command previously tried to use an all-electric Zero MMX bike for the same purpose, but the battery only lasted two hours.
It's not just commandos will soon be receiving steal motorbikes. In August, it was announced that police forces could use the bikes to approach criminals undetected.
The bike, designed by Zero Motorcycles in northern California, has a top speed of up to 98 mph (158 km/h), allowing police to chase criminals down if the stealth approach fails.
It's not just commandos will soon be receiving steal motorbikes. In August, it was announced that police forces could use electric bikes (concept pictured) to approach criminals undetected.
The crab-tank: Military vehicle made by Volvo can drive SIDEWAYS and could soon be used to transport the French Army
Volvo-owned Arquus has developed Scarabée, a 6.6 tonne and 6ft tall tank
Each of four wheels is powered, meaning it can turn on spot and drive sideways
Being considered to replace army's fleet of light-armored vehicles by 2025
Arquus has shared incredible footage of its new tank that can drive sideways and could soon be used by the French army.
The Volvo-owned company, which focuses on battlefield-ready vehicles, has named its new light tank Scarabée, or beetle, reports Popular Science.
It has two engines in the back - one electric and one diesel - which help it reach top speeds of 75mph (120kmph), despite weighing 6.6 tonnes.
Arquus reveals new vehicle that combines all modern technologies
Volvo-owned Arquus' new tank - Scarabée, or beetle - can drive sideways because each of its wheels are powered
It can also be dropped from a place without a parachute - provided it is from a low height
HOW DOES ARQUUS' NEW TANK MOVE SIDEWAYS?
The Scarabée, or beetle, moves in a similar way to a regular 4x4 in that each of its wheels are powered. The driver can move individual wheels in any direction, meaning the front wheels can face a different direction to the back so that the vehicle can turn on the spot.
In order to move sideways, the driver must turn each of the wheels in the same direction.
Arquus' CEO Emmanuel Lavacher told Popular Science: 'We really worked on the speed because that is also a form of protection.
'If you put a lot of protective armor on a vehicle it makes it very heavy, big, and therefore slow unless you give it a large, powerful engine - in which case you no longer have a small, agile military vehicle.'
Arquus' new vehicle, which is 6ft (1.8m) tall and 15ft (4.6m) across, is just one of the candidates being considered as a replacement for the French army's current fleet of light-armored vehicles by 2025.
The firm used composite materials to provide the best protection for the four-manned vehicle, which can also be remote controlled.
Each of the vehicle's wheels are powered, which gives it its crab-like ability to drive sideways - which can be used to avoid mines with ease.A spokesperson for Aquus said: 'That way you can approach the enemy without either turning your back to him or being full front on, but you could also drive crab-like behind a ridge, for example, and yet still have your roof-top gun with its limited turn radius pointing at the enemy.'
It has two engines in the back - one electric and one diesel - which help it reach top speeds of 75mph (120kmph), despite weighing 6.6 tonnes
This also means the huge tank can be turned around on the spot and can make it around extremely tight corners.
Scarabée can also be dropped from a place without a parachute - provided it is from a low height.
As well as carrying two tonnes of equipment inside, Arquus has also designed a trailer that can hold double that.
The trailer can also be remote controlled and can move independently when called for as it is robotised.
In 2009, France launched a large modernisation programme for its army dubbed Project Scorpion.
Arquus' new vehicle, which is 6ft tall and 15ft across, is just one of the candidates being considered as a replacement for the French army's current fleet of light -armored vehicles by 2025
Military security experts have successfully managed to stop a truck in its tracks by destroying its engine with a laser.
The 30-kilowatt fibre laser called Athena burnt through the manifold in seconds, despite being fired by a team from Lockheed Martin positioned more than a mile away.
The security firm said the test signifies the next step to fitting lightweight laser weapons on military aircraft, helicopters, ships and trucks.
The laser, known as Athena, was built by Maryland-based security firm Lockheed Martin. During the test, the 30-kilowattfibre laser burnt through the truck’s engine (pictured) and disabled it from more a mile away
The demonstration was the first field testing of Lockheed’s integrated 30-kilowatt, single-mode fibre laser weapon system prototype.
Fiber-optic lasers are revolutionising directed energy systems,’ said Keoki Jackson, Lockheed Martin chief technology officer.
‘We are investing in every component of the system - from the optics and beam control to the laser itself - to drive size, weight and power efficiencies.
ADAM LASER DISABLES BOATS
Athena is based on the firm’s Area Defense Anti-Munitions (ADAM) laser weapon system.
In tests off the California coast in May, Adam was used to successfully disable two boats at a range of approximately one mile (1.6km).
The high-energy laser burnt through multiple compartments of the rubber hull of the military-grade small boats in less than 30 seconds.
Lockheed Martin previously demonstrated the system’s capabilities on airborne targets in flight, including small-calibre rocket targets and an unmanned aerial system target.
The system can precisely track moving targets at a range of more than 3.1 miles (5km).
‘This test represents the next step to providing lightweight and rugged laser weapon systems for military aircraft, helicopters, ships and trucks.’
By using a technique known as spectral beam combining, the system blends multiple laser modules to create a single, powerful, high-quality beam.
This is said to provide greater ‘efficiency and lethality’ than multiple individual 10-kilowatt lasers used in other systems.
Athena is based on the firm’s Area Defense Anti-Munitions (Adam) laser weapon system.
In tests off the California coast in May, Adam was used to successfully disable two boats at a range of approximately one mile (1.6km).
Lockheed Martin said at the time that it developed the ground-based system ‘to demonstrate a practical, affordable defence against short-range threats.’
During the marine the high-energy laser burnt through multiple compartments of the rubber hull of the military-grade small boats in less than 30 seconds.
Athena is based on the firm’s Area Defense Anti-Munitions (Adam) laser weapon system. In tests off the California coast in May, Adam was used to successfully disable two boats (one shown) at a range of one mile (1.6km). Lockheed Martin has previously demonstrated the system’s capabilities on airborne targets in flight
And Lockheed Martin has previously demonstrated the system’s capabilities on airborne targets in flight, including small-calibre rockets and an unmanned aerial system.
It can precisely track moving targets at a range of more than 3.1 miles (5km).
‘Our Adam system tests have shown that high-energy lasers are ready to begin addressing critical defense needs,’ added Tory Bruno, president of Strategic and Missile Defense Systems, Lockheed Martin Space Systems Company.
These aren’t the first laser systems to track and destroy targets but Lockheed Martin said its tests are significant because the lasers are smaller, use less power and are more efficient.
‘The high-energy laser serves as the heart of a laser weapon system,’ said Dr. Johnson.
‘This 30-kilowatt milestone shows our commitment to producing the high beam quality and high power needed to address a variety of military ‘speed-of-light’ defensive operations.’
The Adam laser prototype can precisely track moving targets at a range of more than 3.1 miles (5km). Last year's marine tests are shown. These aren’t the first laser systems to track and destroy targets, but Lockheed Martin said its test are significant because the lasers are smaller, use less power and are more efficient
DPV - Specifications
Length : 4.08m 161 inches
Width (outside of wheel to wheel) 2.11m - 83 inches
Height 2.01m - 79 inches
Ground clearance .41m - 16 inches
Wheel base 2.84m - 112 inches
Curb weight 960kg - 2110 pounds
Combat payload 700kg - 1540 pounds
Weight can be reduced by using titanium or aluminum frames and the body made of carbon fiber composite. Perhaps reducing the weight by 200 kg.
Light Strike Vehicle (LSV)
Resembling props from Mad Max, Light Strike Vehicles (LSVs) are 3-man dune buggies designed to act as armed scouts and attack vehicles. They can be fitted with a smiliar array of weapons to the 110s. LSVs were taken to Iraq in 1991 but were not deployed by the SAS due to them being unsuitable for the rough terrain in Western Iraq. Due to the lack of space for fuel, ammunition and other stores, LSVs are only really suitable for short range operations.
Light Strike Vehicles are used by a number of special operations units around the world such as America's Delta Force and Navy SEALs (SEAL Desert Patrol Vehicle pictured)
photo : US DoD
Chenowth Scorpion Desert Patrol Vehicle
The ultimate SEAL Team joyride - the Scorpion DPV/FAV.
The Scorpion DPV (Desert Patrol Vehicle) is a three-man on-road/off-road vehicle used for many long-range desert operations including close-air support or combat search and rescue missions. Originally designated as the FAV (Fast Attack Vehicle) the DPV has seen service primarily with the United States Navy SEALs through Operation Desert Storm and is assumed to be in current operational use along the fronts in the Iraq War and in Afghanistan. The concept of FAVs in combat dates back to World War 2 where the British Army utilized specially-modified "JEEPS" to shadow the movements, whereabouts and activities of the German Army in the Egyptian Campaign. These systems belonged to the Long Range Desert Group (LRDG) whose primary function had become reconnaissance and intelligence gathering.
The Desert Patrol Vehicle (DPV) utilizes a modified construction frame like those found in base off-road race cars. Suspension consists of two frontal shock absorbers and four shock absorbers positioned in the rear. The suspension is controlled primarily by a position-sensitive 'trailing-arm' system. The DPV is actually a 2x4 off-road vehicle, though designed to go anywhere a 4x4 could naturally go. Power is derived from a Volkswagen 2-liter, 200 horsepower air-cooled engine that allows for speeds above 60 miles per hour and a range equal to 210 miles. Range can be augmented by was of a fuel bladder than increased its operational range some 1,000 further miles. The DPV (then as the FAV) was developed in the 1980s with a generous budget and some 120 vehicles were produced as well as militarized motorbikes for special forces use.
The vehicle can be armed with a variety of mission-specific weaponry including the Browning .50 caliber heavy machine gun, the Mark 19 40mm automatic grenade launcher and the M60 .30 caliber general purpose machine gun. Ammunition stores are mission dependent. Additionally, and personal weapons carried by the crew become part of the lethality that is the DPV. Total payload for the DPV is a reported 1,500lbs.
The DPV was first unveiled to American home audiences in the 1991 televised liberation of Kuwait City. SEAL Team members were shown on their DPVs in the Kuwaiti streets complete with the traditional Bedouin headgear in place. The DPVs were able to maneuver across the desert and through the city streets with relative ease, staying ahead of the regular army forces while keeping an eye on Iraqi armor formations, location and defensive positions.
The DPV weapon system is extremely useful as a battlefield scout and reconnaissance vehicle in the special forces role. Other mission roles include target acquisition, surveillance, peacekeeping and deep strike. In large part, the DPV/FAV has been replaced in inventory by the LSV - Light Strike Vehicle.
Specifications for the Chenowth Scorpion Desert Patrol Vehicle (DPV) / Fast Attack Vehicle (FAV) Dimensions: Overall Length: 13.39ft (4.08m) Width: 6.92ft (2.11m) Height: 6.59ft (2.01m) Structure: Accommodation: 3 Weight: 0.7 US Short Tons (680kg; 1,499lbs) Armament Suite: MISSION-SPECIFIC: 1 x 40mm SACO MK 19 Automatic Grenade Launcher 1 x 12.7mm M2 Browning Heavy Machine Gun 1 x 7.62mm M60 General Purpose Machine Gun 2 x Anti-Tank Missile Launchers