Virtual At Sea Training (VAST)
The Virtual At Sea Training system, or "VAST," allows warfighters to hone their live-fire combat skills while operating at sea. The VAST system is able to successfully 'score' precisely where the ordnance rounds actually landed - a significant milestone in ensuring effective at-sea combat training.
VAST is actually comprised of a system by which the ship's crew or a 'spotter' sees a realistic presentation - for example, a landmass with the topography of a 'real world' target - which corresponds to an area actually located over open ocean.
During training exercises, the operator fires at the simulation of what they might expect to see in combat, while the ordnance actually lands within an array of buoys in the water. Exercise evaluators, monitoring the target practice on a computer screen, could be either aboard a ship or somewhere ashore.
Developed by the Office of Naval Research and tested by the U.S. Atlantic Fleet, this virtual reality training is one example of the Navy's efforts to keep its Sailors combat ready as its weapons systems become increasingly advanced.
In addition to programmable targets, VAST has another distinct advantage - it is portable. Ships can take the at-sea trainer - including the firing range - with them wherever they go.
The portable 'range' is made up of several buoys that form the target area. These buoys are actually placed into the water by the ship conducting the training, in this case by the crew of the Ticonderoga.
Once the ship positions itself at the proper distance from the buoy field, it engages and shoots at the virtual target. The actual ordnance then falls into this buoy field, which in turn triangulates the point of impact. The IMPASS (Integrated Maritime Acoustic Scoring And Simulator) buoy system is equipped with Global Positioning System (GPS) sensors that enable the accurate triangulation of the rounds.
For these initial demonstration trials, one computer provides feedback on accuracy while a second computer is used within the ship to help with the training. In the future, a satellite uplink will potentially allow over-the-horizon operations.
As communications and satellite technology has advanced, the natural evolutionary development of weapons systems has advanced along with it. VAST is a logical next step in leveraging that technology to better train ships and aircraft that will ultimately deploy these weapons in battle.
The Air Force's 46th Test Wing used other existing systems to measure the effectiveness and accuracy of the VAST buoys during the exercise. The older systems have initially validated the emerging technology.
Another key advantage of VAST is its training versatility. Rather than continuously firing on a static, predictable bombing range, the presentation viewed by the war-fighter can be manipulated to more closely resemble the type of terrain or target operators may face in battle. As the system develops, planners hope to incorporate models closely resembling geographic areas of interest.
While Navy officials are initially encouraged by these preliminary results, more testing is planned. Provided the concept continues to prove successful, the Navy plans to invest in as many as 10 additional systems by the end of fiscal year 2003. There are currently three in the Navy's inventory being tested.
Finally, VAST offers savings in time, logistical considerations, and money when compared to live-fire ranges. Navy ships, for example, must typically travel hundreds of miles to practice Naval Gun Fire Support using live-fire ranges.
This system shaves days off transiting to and from these ranges. These savings can then allow more time for crews to focus on other critical prerequisites to deploying, including other necessary training, as well as equipment maintenance and repair.
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