Special Operations – SOFIC 2011
SOFIC 2011, the Special Operations Industry Conference held in Tampa, Florida, received a lot of attention this year for several reasons. First, the apprehension and death of Osama Bin Laden by the Navy SEALs was a national attention grabber. Second, as irregular warfare becomes the norm, there is a growing need for unconventional operations. As a result, the Special Operations community is seeing their budgets increase while other military activities are seeing cuts. SOFIC was extremely well attended with over a one-hour-long line for late on-site registration. Thankfullly I pre-registered early.
The conference was what one would expect with all the major defense industry players showing off some of their latest technology. Boeing was highlighting its A160 Hummingbird Unmanned Aerial Vehicle, a helicopter that can reach high altitudes, hover for long periods of time, go great distances, and operate much more quietly than current helicopters. It features a unique optimum speed rotor technology that enables the Hummingbird to adjust the RPM of the rotor blades at different altitudes and cruise speeds. One of its proposed GIS-related missions is as an ISR platform.
Lockheed Martin was demonstrating HULC, a sci-fi looking exoskeleton that was surprisingly unobtrusive and intuitive for the user. HULC (Human Universal Load Carrier) is hydraulic powered, permitting users to carry loads of up to 200 pounds for extended periods of time over all terrains. The design permits deep squats, crawls, and upper-body lifting. HULC senses what users want to do and augments their ability, strength, and endurance. See the following video which does a better job of explaining its features and capabilities. For those of you doing field GIS data collection in remote locations it may be of interest as a way of carrying heavy gear over rough terrain. Click on the image below to view the video.
Also on display was information about the new line of dirigibles for persistent surveillance and ISR data collection such as this Northrop Grumman Long Endurance Multi Intelligence Vehicle (LEMV). These airships are a hybrid blimp and ridged aircraft that have aerodynamic lift, designed to hover at high altitudes for long periods of time, up to 21 days. They can be manned or unmanned. One would think that these large slow vehicles could be vulnerable to small arms fire but the high altitude combined with a semi-ridged tough skin and low helium pressure make them almost immune to ground attack.
GIS-related exhibitors included ESRI, BAE with the new version Socket GXP for imagery analysis and exploitation, and TerraGo showing GeoPDF creation and add on tools. Although there was no direct information about geospatial participation in the Bin Laden raid, experience teaches us that GIS played a part in mapping and reconstructing the compound using aerial and ground-level imagery with GPS guidance throughout the operation. In conversations with some attendees, we guessed that the compound was reconstructed to the last detail including construction using the same types of building materials so the teams could practice how tough penetration would be and the level of protection walls would provide. But remember, even at this SOFIC conference, those who really know won’t talk and those who talk don’t really know.
One guess I’m confident about is that they practiced every possible scenario over and over again. In my personal experience during my Navy career, I was the Weapons Officer of the USS Forrest Sherman DD-931 which was part of the Iranian hostage rescue attempt in 1980. In 1980 carriers and large combatants didn’t operate in the Persian Gulf because everyone thought the waters were too shallow and the Gulf too small for carrier ops. As a result, we were the only combatant in the Persian Gulf and our job was to act as a ”horse’s twitch” attracting the attention of the Iranians in the northern Gulf while the helicopters came in from the south. The key lesson learned from the helicopter crash and failed attempt was practice, practice, practice and plan for every contingency.
At trade shows I always like to hit the small booths because that’s where the innovation shines. Several smaller vendors had items of interest to us GIS people. One example that may be of interest to GIS field operators, especially emergency response command centers, was a very portable satellite dish antenna that is a precision inflatable ball. GATR Technologies makes the four-pound antenna that can be carried in a backpack and set up in minutes to provide 1.2-meter high-bandwidth communications. The entire equipment package is less than 50 pounds and the inflated ball was surprisingly stable, even in heavy winds, according to the GATR rep.
Another high-tech GIS based technology was a robot swarm capable of performing many hazardous tasks. The science-fiction-like swarm, built by Solstice, can operate autonomously or as directed by an operator. The individual robots use GPS and IMUs to move to target locations and report back their position and data collected in the field. The location of the bots can be displayed on a GIS along with the data attributes collected. One example of their use was rapid combat airfield inspection. Dozens or more robots are sent out to inspect a proposed landing site for potholes or FOD (debris that can pose a jet engine intake hazard). Then the bots can line up and provide approach and runway illumination.
You probably have seen toy remote control helicopters sold in specialty gift stores. The Shadow and Dark Shadow are serious versions designed for surveillance and data collection. Built by BCB of the United Kingdom, the remotely piloted four rotor helos have a 2.5 lb. payload and a 70-minute flight duration on internal battery power. They can easily carry still or video cameras.
The booth that tickled me the most was a young inventor’s new design for a lowly tent stake. When I saw it I wanted to do a Homer Simpson “D’oh, why didn’t I think of that?” Eric Simonson, shown here, inventor and president of ToughStake, solved the annoying problem of tent stakes not working well in sand.
He realized that the reason stakes pull out is that the load pulls the top of a traditional stake which pulls it over then out easily. Eric came up with a design that is genius in its simplicity. He built a flat metal shovel-like stake that has a steel cable and ring running from the bottom of the stake up to the load. Since the pressure is applied to the bottom the stake it is not pulled ove
r but actually drives deeper. At his booth, Eric had a simple test box filled with dry sand so attendees could try it for themselves. I tried it and with the force of one arm I couldn’t budge it.
His stake works equally well in normal soil, dry sand or snow. I could see this stake solving a lot of field installation problems such as setting up remote antennas towers, data collection gear, tents, and protective canopies. Well done to Eric for solving such a basic problem that has plagued many military field operations with such an elegant solution.
And of course I have to end with a big “Bravo Zulu” (Navy talk for well done) to Navy SEAL Team Six.
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