Armor & Mobility

MAY 2016

Military magazines in the United States and Canada, covering Armor and Mobility, focuses on tactical vehicles, C4ISR, Special Operations Forces, latest soldier equipment, shelters, and key DoD programs

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Page 24 of 35 Unmanned Tech Solutions | Armor & Mobility | May 2016 | 23 to protect personnel inside from blasts. With all the extra armor, the vehicles are getting so heavy that mobility is suffering, he said. "And certainly being with the Navy, coming from the sea, we want to be able to be lighter and quicker," Walsh said. "And so I think technology is getting smaller – we talk about that all the time – the technology and processors are getting smaller to allow us to put it … on each individual vehicle in the future." More broadly, Walsh said at the hearing that the Marine Corps is in the midst of conducting a force structure assessment to understand what type of force and of what size it will need to succeed in the future operating environment, much like the Navy is conducting an FSA to inform future ship count requirements. "In fact I just left the commandant and senior leadership just before I came over here, and we're conducting our force structure assessment, and it's all projecting into that future operating environment," Walsh told the senators. "And we see this as probably the most complex operating environment, both at the lower end of the spectrum and certainly at the higher end of the spectrum. And we have not really seen since the Cold War these types of capabilities, when you start getting into precision weapons, ability to sense the area and also working in the electromagnetic spectrum. More info: Eyes on the Horizon At a recent demonstration at Camp Roberts, HGH Infrared Systems' Spynel sensor was evaluated for UAV detection using Class II and Class I UAVs that ranged in size from 2 up to 55 lbs. and varying payload capabilities. Several different scenarios were presented including payload drops. Throughout its testing, Spynel's detection of small UAVs was found to be incredibly reliable, despite occasional erratic f light patterns and hovering. Spynels do not operate with a library "matching" mechanism, and therefore can detect even newly released UAVs or modified commercial models. Unlike radars, they are completely passive and cannot be jammed or easily manipulated. Nevertheless, combining a radar specifically designed for UAV detection with a Spynel sensor can prove extremely effective as the two detection systems can complement each other. A layered and integrated system will provide the most effective capability, as demonstrated during the event. For the past two years, HGH Infrared Systems has successfully demonstrated their panoramic thermal sensor in a large number of evaluations and demonstrations, including Black Dart. Multi-Mission Capable Threat missions can involve UAVs to carry ISR equipment, propaganda, Battle Damage Assessment (BDA), weapons of mass destruction (WMD) delivery, drops of biochemical agents or IEDs/bombs, or psychological harassment. They can be outfitted with jammers or f lying IEDS and used as a weapons platform (firearms, small rockets). Along with the rise of these autonomous, unmanned aircrafts the need to be able to detect and track them to prevent any accidents also grows. Having an effective system in place which can provide an early warning has proven challenging as recent incidents have demonstrated the inability to detect and track the often cheap, slow moving, low profile targets with conventional sensors. The idea for the design of HGH Infrared Systems' Spynel series fifteen years ago emerged from the following observation: thermal monitoring solutions for long range panoramic imaging must be developed specifically for this need, and not use traditional subsystems. Thermal imaging allows for day and night surveillance, but also guarantees the ability to view any object, even deemed as stealth, whether it is hot or cold. Spynel will be especially successful in detection and tracking of asymmetric threats such as UAVs, UGVs and UMS. Spynel panoramic infrared imaging systems provide a full 360-degree image for wide area surveillance applications. With built-in image analyzing software, Cyclope, all land, aerial and maritime targets are automatically detected and tracked, simultaneously, relieving the operator of scanning the image constantly himself and missing an event during lapses of attention. Spynel sensors were first commercialized in 2006 and have been deployed in the harshest environments since their inception to ensure unprecedented real-time security against conventional and asymmetric threats. More info: FutureTech FutureTech Spynel-S Cyclope

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