Combat & Casualty Care

Q1 2016

Military Magazines in the United States and Canada, Covering Combat and Casualty Care, first responders, rescue and medical products programs and news\Tactical Defense Media

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tacticaldefensemedia.com 22 | Combat & Casualty Care | Spring 2016 hydraulics, and no power boost for the controls. The disadvantage to the design is that the aircraft is relatively slow, with a top speed of 100 knots, but most loads are flown between 40 and 80 knots. K-MAX has counter-rotating rotors, so all the power goes to lift. With a conventional main rotor / tail rotor configuration, up to a third of the engine's power can go to the tail rotor, necessary to counter torque and maintain the heading of the aircraft, but since there are no tail rotors, all the power goes to the lifting blades. It can lift its own weight. "It's a 6,000 lb. aircraft that can lift 6,000 lbs.," says Jon McMillen, Lockheed Martin's program manager for the unmanned K-Max aircraft. The aircraft burns about 85 gallons an hour, which gives it a mission duration of just under three hours. It can travel at about 100 knots without a load. A typical load for the unmanned mission is 4,500 lbs. While deployed with the U.S. Marine Corps from 2011 to 2014, the unmanned K-MAX successfully conducted resupply operations in Afghanistan. "We delivered more than 4.5 million pounds of cargo during more than 1,900 missions in two and a half years," says McMillen. The aircraft was designed for the vertical lift mission and is barely wide enough for the single pilot's seat. Typically, the pilot is looking down at the cargo hook and places the hook into the ground crewman's hands, thereby necessitating the narrow fuselage. There is limited space inside for cargo and personal gear, and there are FAA- approved side-mounted jump seats for a crewmember to sit on, such as a logger or a firefighter. Bullish on K-MAX The unmanned K-MAX was employed successfully in Afghanistan to provide logistics support to remote operating bases. The missions had been conducted by convoys or by larger manned helicopters. "The unmanned K-MAX took a lot of Marines and soldiers off the roads," Terrance P. Fogarty, director of business development for K-MAX helicopter programs. Fogarty says the technology and aircraft are an ideal system for firefighting. Presently aircraft are limited by weather or visibility from smoke, and can fight fires only during limited daylight hours. And it's a grueling job. Lockheed Martin and Kaman are demonstrating how K-MAX can be used to make multiple lifts to drop water or fire retardant on fires around the clock. The system can be deployed rapidly to provide humanitarian assistance to remote, inaccessible or contaminated areas, especially if roads or airfield have been damaged, and has a relatively small footprint. "It depends on how long we stay, but when we deployed with the U.S. Marine Corps, the entire operation consisting of a Lockheed Martin field team of about a dozen people with aircraft, support equipment and spares were transported with three C-17 lifts," Fogarty says. Radio, satellite or Iridium communications can be used as a datalink with the aircraft. The satellite antenna is mounted on top of the aircraft and is able to receive a virtually uninterrupted signal even with the blades rotating above. It's a stable helicopter, designed by pilots and maintainers, Fogarty says, and it's the only aircraft designed, built, tested and certified for repetitive external lift, instead of a passenger carrying aircraft converted to full time repetitive lifts." The K-MAX prototype first flew in 1991—35 production model K-MAX helicopters were built, and 22 are still flying, mostly in the forest products and firefighting industries, around the world. Fogarty says although K-MAX is currently not in production, Kaman is recently announced that it will reopen the production line, and has begun accepting deposits. Fogarty says the new aircraft will retain the same proven design. "We're bullish on the future of K-MAX," he says. On the Ground According to Brian Stancil, director of robotic systems at Neya Systems, the company has a long involvement with medical robotics. "We've looked at a lot of small unmanned ground vehicles for locating and getting to the casualty. Assessment and triage are very difficult to do with unmanned systems, so a lot of the work that we've done has been to put remote sensors and gain access to casualties in and perform remote telemedicine approaches," Stancil says. "Once you have located the casualty, the soldier has to be protected. For treatment, we've been looking at high-degree-of- freedom manipulators attached to our unmanned ground vehicles to provide some initial and early treatment for problems," Stancil says. "With extraction, you're starting to get to the last 80% of the problem. There are good places and bad places to grab a guy on the ground. If he's in the line of fire, you want to get him into a safe position quickly. In other situations, you would want to be a little bit more careful." According to Stancil, most control systems have a static functionally laid out user interface (UI). "There are different tabs and sections for the various functional components of the system. With VERTI, we're creating specific UI views for any task that the soldier needs to do at that time." "The testing we did with Lockheed and Kaman has been invaluable. We've integrated a lot of UCS services. We've tested out a lot of the issues with networking and wireless bandwidth. We're going to be looking for transition opportunities to do further demonstrations and to share this with to other groups that are working in similar spaces," Stancil says. The UCS architecture helps small businesses and directly supports DoD's Better Buying Power (BBP) initiatives, because it gives smaller, innovative companies the flexibility and ease of inserting technology into existing systems, while reducing costs. UCS Architecture "Open architecture allows us the," says Rich Ernst, who was the lead for UCS with DoD and is now with the Department of the Navy. The mission planning and management system provided by Neya not only fits on the K-MAX, but can work with other systems, opening up a much larger market. "It provides that far-reaching innovation for the system, but also lowers the cost of the system going forward," Ernst says. While the demo showing the collaboration between autonomous air and ground systems was remarkable, and so is the collaboration between big and small business, Ernst says. "We standardized the [contract] language so you can procure things in a certain set of ways that is advantageous for however you have invested money into that system," says Ernst. "Vendors can own everything – but at minimum, the government owns the interfaces (and) the behavior models to that application." Even with squeezed budgets, Ernst says the open architecture approach reduces redundancies and inefficiencies, and thus procures Unmanned Medical Response

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