Weapon systems engineering in the United States
The examples and perspective in this article may not represent a worldwide view of the subject. (May 2018) |
Weapon systems engineering involves using engineering tools in technology to create and guarantee the safety and performance of weapons. It is currently being used by the military and the government to create new weapons to protect the United States. It is used to make nuclear and non-nuclear weapons and ensure their safety throughout their lifespan.[1]
Companies involved
Many companies help our government and military to manufacture new weapons and strategies. One is Parsons. The Missile Defense Agency, MDA, is a research agency that develops and tests the missile defense agency to defend the United States and its allies. Parsons helps with this through the MDA missile contract. They provide missile system support including tests and evaluating the performance.[2]
The U.S. Navy awarded multi-million-dollar contracts with Tekla Research and Avian-Precise Co. to support the "Naval Air Systems Command's Systems Engineering Department". Tekla is to help NAVAIR assess technology, cost, and design. Avian-Precise is to help the command sustain a weapons system related to all U.S. naval platforms and systems.[3]
Inventions
The electromagnetic railgun launcher is a new long-range weapon using electricity instead of chemicals to launch projectiles. Projectiles can be launched at approximately 4,500 miles per hour using magnetic fields. These new weapons are allowing the military to eliminate explosives where possible. It is being used by the Navy as well for its ability to be effective and affordable.[4] The Navy is working on modernizing their weapons, including nuclear weapons. Two weapons on the list to work on creating are a "low-yield warhead for submarine-launched ballistic missiles" and a "nuclear capable submarine-launched cruise missile".[5]
The U.S. Army is using Weapons Systems Engineering to help protect our soldiers. They have designed a Humvee to be equipped to contain a gun with an automated tracking system. This would be controlled by another soldier or a computer program. This along with other new systems, vehicles, etc. is all possible because of the new advancements in Weapon Systems Engineering.[6] In May the Army will test out automated Humvee's to certify them as combat ready vehicles. According to the Army Tank Automotive Research, Development and Engineering Center (TARDEC) this is the first step toward weaponized robotics. The Army is not looking to make killing machines, but machines controlled by humans.[7]
The US Air Force Research Lab (AFRL) assigned Lockheed Martin the job of creating "an aircraft-mounted high-power fibre laser". They must make a weapon that is small enough and light enough, but also can be effective. The laser will be mounted on jet fighters with the ability to disable enemies targeting systems.[8]
References
- ^ "Engineering". NNSA. Retrieved February 15, 2018.
- ^ "Weapons and Missile Systems Engineering – Various U.S. Locations". Parsons. Retrieved 2018-02-24.
- ^ "Navy Selects Tekla Research, Avian-Precise Co. for NAVAIR Systems Engineering Support IDIQs". ExecutiveBiz. Retrieved 2018-02-24.
- ^ "The Future Moves at Mach 6". Retrieved 2018-02-24.
- ^ Mehta, Aaron (2018-02-21). "The US could be getting 2 new nuclear capabilities. Here are the details". Defense News. Retrieved 2018-02-24.
- ^ Keller, Jared (2018-02-14). "The Army Is Finally Engineering A Wingman Who Won't Screw Soldiers Over". Task & Purpose. Retrieved 2018-02-24.
- ^ "Army Ready to Certify Armed, Robotic 'Wingman' Vehicles for Combat". MeriTalk. Retrieved 2018-02-24.
- ^ "Agents of SHiELD – the US Air Force's new aircraft-mounted laser weapon". Airforce Technology. 2018-02-19. Retrieved 2018-02-24.