That’s the case with the Multisorb camouflage used by the US Navy SEALs and made by MBDA, the European missile manufacturer. Brugieregarde Industrial Services/MBDA Haute couture camouflage Sometimes it’s the actual shape of these holes in the netting that give it its anti-radar characteristics by absorbing and diffusing those radar beams. And because “nothing in nature is flat,” as he said, camouflage textiles are full of holes or little flaps that stick up every which way. To do so, “you need to hide shape, shine and shadow,” explained Peter Somerville, business development manager for Lockheed Martin. “The primary goal is to merge the object with its background,” Mike Stewart, director of research and innovation at QinetiQ, a British defense technology group, told Popular Science at an arms show in London in September. While the former is well-established, the latter has yet to be bought by an armed force. Militaries and defense companies use, and are working on, two completely separate camouflage technologies: static, such as paint or textile that doesn’t change once applied, and dynamic, which adapts in real-time to its environment. Of course the ultimate-and for the moment unattainable-objective is invisibility, but Harry Potter’s cloak remains the stuff of fiction and CGI. But camouflage today is much more sophisticated than that because equipment and people must be hidden not only from the enemy’s eyes, but also from their infrared cameras and radars. Military camouflage, you may think, is easy: you just slap weird shapes in tones of green, beige, blue, or gray on hardware or clothes.
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