A federation of computer simulations is at the core of the Defense Department’s
billion-dollar program to boost joint-service training. The ability to connect
simulations from each service recently was put to the test by Joint Forces Command,
with promising results so far, officials said.
Connecting combat simulations in real time, so commanders and war planners
from all services can train together, has proved to be a tough technical issue
for the Defense Department. Last year, the Pentagon cancelled the multibillion-dollar
Joint Simulation Systems program, as a result of cost overruns and poor performance.
Joint Forces Command officials said they now believe they could achieve a JSIMS-like
capability in the foreseeable future.
JFCOM has a huge stake in this technology, because the command is responsible
for the Joint National Training Capability, a billion-dollar program designed
to help the services interact in live and simulation-based exercises.
The first JNTC exercise took place on the Western Ranges in January, and focused
on joint close air support. JFCOM integrated several service models to create
a live, virtual and constructive exercise environment. To alleviate the clashes
between the different models, the command developed the joint federation object
model, said Navy Cmdr. Jeff Wolstenholme, the exercise technical director.
“That is the glue that makes all the models interface with one another,”
he said during a media brief at JFCOM headquarters. “There’s always
integration issues between the models themselves.”
“The federation that we are building for the JNTC is providing the capability
that JSIMS would have given us, but still it is individual models that have
been brought together,” Wolstenholme told National Defense. “The
services are kind of lining up behind that, looking to make investments to get
their piece of their technology into this JNTC live, virtual and constructive
[federation] that we are building.”
When JSIMS was cancelled in September 2003, the first version of the software
called block I was undergoing verification and validation testing at the Joint
Warfighting Center—the primary user of JSIMS.
An analysis of alternatives is underway, to determine what exactly will replace
JSIMS. Some critics have said that the analysis will recommend that JSIMS cease
to be a joint program and be parsed into separate systems for each service.
Others, like Army Brig. Gen. Stephen Seay, the program executive officer for
simulation training research and instrumentation, argue that there is no other
technology that can meet the requirements set for JSIMS.
Whatever the outcome, JFCOM supports the need to produce a JSIMS capability
as soon as possible, according to a command spokesman.
During the JNTC exercise in the Western Range Complex, the technical control
unit oversaw 14 sites in 10 states and had control over the integration of four
instrumentation systems, 10 virtual simulations, seven constructive simulations
and five federation management tools, said Wolstenholme.
In virtual simulation, actual people use simulated equipment, while in constructive
simulation, both people and equipment are simulated.
For example, pilots at Fort Rucker, Ala., were flying in virtual Apache AH-64A
simulators, equipped with imagery from the National Training Center, in California.
The live forces were mainly at the NTC (Army) and 29 Palms (Marine Corps) with
Air Force support from Nellis Air Force Base, Nev., and the Navy in San Diego.
Special operations forces also participated.
To bring together the live, virtual and constructive picture, JFCOM has constructed
a test and training enabling architecture (TENA). “We have this located
at each of the sites, so the instrumentation system feeds into this architecture.
... Using the communication architecture, we are able to bring it into the JFCOM
facility,” Wolstenholme said. “We send communication pods to all
the major sites as part of the exercise, and a majority of the commercial communication
lines are 20 megabit lines to pass all this data.”
Existing T1 lines also were integrated into the architecture, but for the most
part, JFCOM had to build a communications architecture solely for the exercise.
Nevertheless, as part of the JNTC, the command is going to build a permanent
architecture for training and testing. The architecture will be in place for
the next JNTC exercise, scheduled for June, said Wolstenholme.
Initially, this communications architecture is going to be focused on the East
Coast, and then spread across the country at “all of our key training
sites,” he said. In the fiscal year 2005-2006 timeframe, this communications
architecture is going to go global, to tie training sites overseas.
“Having a persistent 24/7 ability within all the sites, it will give
us a lot more flexibility in our training,” he added. For remote sites
where training does not occur very often, JFCOM will provide communication pods.
The goal is to build the communications architecture by 2009, said Wolstenholme.
It will be based on four hubs in the United States, and all the other sites
will tie into one of the four hubs. There will be redundancy between the four
hubs, to be able to reroute the data in case one goes down.
“The key piece is that it gives us the 24/7 connectivity that we do not
have right now in the training world,” Wolstenholme said.
During the first JNTC exercise, technicians kept track of any errors in the
simulation programs.
“We can take those issues send them out to the developers for the different
models, and have them work the models to get them corrected for future exercise,”
Wolstenholme said.
“We have seen our fair share of issues in different areas. This is brand
new, cutting-edge stuff that we are doing, and you find a lot of integration
issues that we need to overcome,” he admitted.
One of the technical hurdles that had to be overcome was the virtual radio
system called ASTi. It was used for the first time in a joint exercise, so it
was not quite clear how it would be integrated, he said.
Key to any joint exercises is access to a “common operational picture.”
This allows field commanders and headquarters staff to see in real time what
is going on during combat operations.
Unlike previous training exercises, the friendly forces have blue- force tracking
capability, which gives them situational awareness on the battlefield. Army
troops at the NTC did not have BFT equipment for the exercise, because they
had to leave it in Iraq for real-world operations, Wolstenholme said. However,
they “are fully instrumented in the battlefield, so that gives you the
same capability of BFT, as if they were doing real combat operations,”
he added. Each soldier wears a Global Positioning System (GPS) transmitter.
The instrumentation sensors already installed on the ranges are able to “tap”
where these soldiers are on the battlefield every time they move on the range,
said Wolstenholme.
Soldiers cannot tell what is live, virtual or constructive. “We want
them to think that all these forces are real, and they are all there for them
to command, or all there for them to go against. It does not matter that they
are not really there. They think they are there, when they look at their communications
systems,” he explained.
With the joint semi-automated force model, JFCOM color-coded all the force
in the operational picture. Dark blue represents live actual forces; dark red
the live opposing force. Light blue shows the constructive friendlies, and purple
represents the constructive red force, while green stands for the virtual helicopters
flown out of Fort Rucker. “For the guys on the field, they think it is
all real,” Wolstenholme said.
With a real-world command-and-control system and bringing live, virtual and
constructive tools together, “we can do a complete review of how our joint
TTPs [tactics, techniques and procedures] are all working out between the services
and figure out where the problems lie,” he said.
When gaps are identified, for the most part, they are detailed in after-action
reports, which senior leaders can use to determine if doctrine changes are needed.
Safety problems that arise during exercises are probably the only ones that
are addressed immediately, he added.
The first JNTC exercise boasted a few technical firsts, according to Wolstenholme.
The Marine Corps, which traditionally sticks with live fire exercises, was able
to get updated range instrumentation.
“Now, we bring in instrumentation, and we bring in the constructive piece.
We bring additional red forces and blue forces, and we build terrain in there,
so that they can do amphibious landing into the 29 Palms area constructively,
to give them that much more robustness into their training.”
The Marines also employed their first virtual trainer, called the Deployable
Virtual Training Environment that allows the service to fly virtual helicopters
and also use virtual ground vehicles as part of their exercise. (related story
p. 30)
The Navy played a smaller role in the exercise. Aviators flew live F/A-18 sorties
out of Nellis and launched a Tomahawk missile land attack.
“They go through their full Tomahawk land attack procedures, as if they
were watching Tomahawk all the way up until the missile is actually shooting,”
Wolstenholme explained. “Then, at that point, we do everything constructively,
so we use the Joint Semi Automated Force Model, and we have everything go through
there for the launching of the Tomahawk.”
The Air Force traditionally has supported the Army in tactical level exercises
at the NTC, but it has not supported the Marine Corps at 29 Palms. In this exercise,
the Air Force flew on both ranges, providing close air support for the Army
and the Marine Corps. “They are also having the opportunity to fly with
the Marine Corps pilots and Navy pilots, who also are participating. So, all
three services are flying together for close air support, working with those
ground controllers to fly in and drop ordnance or simulated ordnance,”
he said.
JFCOM also provided a live opposing air force, equipped with A-4s. “That
gives a live air-opposing force against the guys in the box and is something
that they did not have in the past,” said Wolstenholme.
The live virtual and constructive federation work at JFCOM went into high gear
in preparation for the Millennium Challenge 2002—a large scale combat
experiment. “All the technical things we did in Millennium Challenge,
we enhanced them in this federation,” he said.
“We added some capability in there for the interface of all the models
in the federation and there were some improvements made with some of the flight
capability of aircraft and movement of ships,” he explained. JFCOM also
worked closely with the Navy, because the Navy runs a different version of software,
“and we are going to have a common software version for all JNTC exercises,”
he added.
For the next exercise scheduled in June, JFCOM is adding three to five more
systems to get more capability. One of the systems is an Army intelligence model
that “allows us to do higher fidelity intelligence analysis,” said
Wolstenholme. Other systems will allow the force to do theater ballistic missile
defense exercises “and we are bringing in models and systems,” he
said.