With thermal imaging.
Thermal cameras are not blinded by lights in the background, unlike old-style light-amplification devices. Thermal cameras are the only technology that can see an overboard person in the dark.
Without thermal imaging.
Cameras that Measure Relative Heat
Night Vision devices and low-light cameras receive and amplify ambient light (in the visible part of the spectrum). They use image-intensifier tubes that pump up the most minimal ambient light to useful brightness levels. These are the “old school” of night vision, previously the best products for the boater.
Thermal Imaging Cameras: we now offer another technology for seeing in darkness, infrared thermal imaging. An infrared camera uses military technology, not available to recreational boaters until recently, developed by FLIR (Forward Looking InfraRed) Systems, the parent company of Raymarine. A thermal imaging device produces an image using infrared radiation, similar to a camera that forms an image using visible light. Instead of the 450–750 nanometer range of the visible light camera, infrared cameras operate in wavelengths as long as 14,000nm (14 µm).
Thermal imaging cameras are often confused with Night Vision scopes, which make the hazy green images seen on TV and in the movies, but are very different technologies. Thermal cameras are similar to video and fixed digital cameras we use at home, except that they make pictures by detecting and displaying tiny differences in heat, not light. Even the heat from a person’s hand on the wall leaves enough thermal energy behind to show up clearly to a FLIR camera.
Does that mean that thermal imagers only let you see things that are hot? Not exactly. Everything generates thermal energy, even ice, and even though this molecular heat is invisible to the naked eye, FLIR cameras detect it and turn it into digital images that are easy to understand, allowing you to see more and see farther than you ever could with your eyes. Thermal cameras capture more than just heat though; they detect tiny differences in heat—as small as 0.01°C—and display them as shades of gray in a black and white image. Thermal cameras don’t need visible light. In fact, thermal cameras can’t even see visible light, so they see as well—or better—after the sun goes down as in daylight.
So what can you really see? Quite a lot, according to independent reviewers. FLIR cuts through glare (and you can use it in daylight, unlike Night Vision). People and animals give off a distinct signature, and you can see crab pots and logs floating in the water. Thermal cameras are the best technology for locating one of your crew if they fall overboard on a moonless night, so they have a potentially lifesaving safety value for boaters.
The FirstMate MS (Marine Scope) is the smallest and most affordable thermal camera weighs only 12oz. and is rated all-weather IP66.
Real World Value
Screen resolution is the biggest lag in this exciting technology, as the best available non-military units (the new Raymarine T350 and T450) has only 480 x 640 resolution. Also, water is opaque to thermal imagers, so fog and rain will somewhat obscure your view.
Raymarine T400-Series imagers also include a low-light visual camera, which is a great combination that provides both visual and IR spectrums on your chartplotter. Raymarine’s T-Series cameras are small (only 7" diameter x 11 1/8" tall) and are made to work with their new Third Generation c-Series/e-Series displays, as well as older E-Series Widescreen and G-Series multi-function displays.
The affordable, versatile First Mate MS will be valuable on any boat, as well as for camping, home security and other dry-land applications.