See Through Combat Scopes

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You’ve probably never fired an M4 carbine. Until a couple weeks ago, I hadn’t either. But at a recent DARPA demo day, I loaded a magazine (also a first for me), snuggled up to the deadly assault rifle, and looked through one of the most technologically advanced smart scopes ever built. Then I pulled the trigger.

Fallout 4 See Through Scopes Black

“That’s a hit,” I heard a voice say behind me. The target was only about a hundred yards away, but I hadn’t fired a gun since I earned my rifle shooting merit badge in Boy Scouts. I couldn’t count the number of processes going on inside the futuristic computer on top of the gun, but there were at least four visible sensors on the front. Facing me was a crisp display slightly smaller than a credit card showing crosshairs and some basic ballistics information. In the near future, a weapons system like this might also shoot self-guided bullets—more on that in a second.

The craziest thing: The scope isn’t just built to improve accuracy. It aims to improve everything.

Contentsshow Medal of Honor: Airborne A combat scope is available to the player to use on the StG-44. View through the tactical scope. Add a photo to.

The Need for a Super Smart Scope

The M4 carbine is a popular gun in the United States military, but it’s one of many weapons used by soldiers. Virtually all of these have rails that support a seemingly limitless number of accessories, from the most basic optical scope to the most expensive thermal imaging technology. Since each combat scenario requires a unique set of tools, soldiers maybe find themselves weighed down with extra accessories or, worse, swapping out components on the battlefield.

So there’s a demand for an all-in-one scope, one device that simplifies the whole setup. Companies like TrackingPoint have been making futuristic digital optics systems for years—including set ups that designed to make the gun aim itself. They’re prohibitively expensive, however, and literally limited in scope.

This is where DARPA comes in. The military’s research and development arm excels at solving impossible problems, and the challenge of building an affordable super smart scope is exactly that.

Imagine a scope that not only incorporates all of the bulky components a soldier would ever need as well as offer features that top brass have only dreamed about. Imagine a network-connected scope that sends ballistic data back to base. Imagine a scope that not only helps soldiers aim but also tells them who not to shoot. And imagine if that scope fit in the palm of your hand and weighed only a few ounces.

That’s the scope I looked through at my recent visit to Fort AP Hill. (Sidenote: This is the same base where the Army built a fake village—complete with a mosque and subway—for training.) The day’s main event was a live fire demo of DARPA’s newest super smart scope. To be precise, it was a working prototype that’s about twice the size of the final design. The scope works, though, and it could change the way we fight wars

It’s somewhat humbly called the Computational Weapon Optic (CWO). Built within DARPA’s Transformative Applications (TransApps) ecosystem—the same system that DARPA developed to power smartphones and tablets on the battlefield—the device is exactly what it sounds like: a computer that you attach to a rifle.

What It Feels Like

I was the only journalist at DARPA’s recent demo day, surrounded by high-ranking officers of several branches of the military, most of whom were wearing fatigues. The live fire demo served as a proof of concept for the Computational Weapon Optic, as well as a chance for the top brass to decide if they might devote some budget dollars to developing the technology further.

By the time Doran Michel, the (now former) program manager of the TransApp program wrapped up the demo day, I was sold. I’m pretty squeamish at the thought of technology that’s designed to help soldiers kill better, but the emphasis DARPA placed on the Computational Weapon Optic seems geared towards more efficient defense rather than more vicious offense. Or at least that’s the pitch I got.

I asked if I could look through the scope to get a better idea of the experience. A few minutes later I had a magazine in one hand and the M4 carbine in the other.

There’s nothing about holding an assault rifle that doesn’t feel dangerous or deadly. Mind you, I’m just nerdy blogger with no military experience. So when I tucked my cheek down onto the cold steel, my hands were sweaty. When I flipped the safety switch off, my finger was shaking a little bit. I can’t imagine what an 18-year-old in Afghanistan must feel like at that moment.

When I looked into the high res display on the Computational Weapon Optic, the first thing I thought of was Call of Duty. This is pretty silly, since I’ve never played Call of Duty—though I was a pretty big DOOM enthusiast back in the day. Something about crosshairs on a digital display gave me feelings, though. I have mixed thoughts on the military and games, but something about that screen made me wonder. I squeezed the trigger.

Firing an M4 carbine kind of hurts. It’s an extremely loud and powerful weapon. Frightened as I secretly was, though, the super smart scope made everything seem more controlled. Maybe it was something about the comfort of a computer doing calculations while I re-learned the feeling of firing a weapon. Maybe it was something about the display blinking with information. Maybe it was the DARPA pitch.

The Features

The natural assumption is that a smart scope helps you see your target better in a variety of conditions. But like I said before, the Computational Weapon Optic is designed to make everything better.

For starters, the scope makes it quick and easy to zero the scope, when it’s first mounted on the rifle. (Zeroing a scope is usually a time-consuming process that amounts to calibrating the optic after it’s first mounted.) The Computation Weapon Optic’s connectivity also makes it easy for a coach to guide a new shooter through the process through a tablet. Like the rest of the TransApp ecosystem, the scope runs a highly customized version of Android that’s compatible with a number of devices. The whole system is also controlled with three simple buttons on the top of the scope.

The Computation Weapon Optic also helps soldiers work together. Multiple scopes can be networked through the standard issue Type-1 handheld radio, so shooting can be synchronized. Soldiers already do this in order to fire at a target without giving away their position, but it’s currently done with voice commands over the radio. Radio chatter, quite ironically, is a great way to give away a soldier’s position. So instead of hearing a countdown, the soldiers see commands on the scope’s display.

This is where things get really futuristic. The Computational Weapon Optic is not only equipped with an optical scope but also night vision and thermal imaging. There’s a laser rangefinder and magnetometer to help determine distance to target. Thanks again to the networking capabilities, fellow soldiers can see the expected trajectory of their bullet on a smartphone or tablet as well as the exact distance to their target. This obviously makes aiming easier.

You can see where this is going. If the networked Computational Weapon Optic can communicate with Type-1 radios, it can also determine where those radios (read: soldiers) are. Perhaps the most powerful feature of the scope is that it warns the shooter when the rifle is aimed at one of his fellow soldiers. The military calls this fratricide prevention, but you can just think of it as a solution to the military’s endemic friendly fire problem. This is what it looks like in action:

All that, and the whole setup could be cheaper than some of the military’s more complicated solutions that offer fewer features. Meanwhile DARPA’s developing other smart scope technology, like the One Shot XG for snipers. Then there’s the Extreme Accuracy Tasked Ordnance (EXACTO) ammunition project. That’s the self-guided bullets mentioned above, but it’s also designed for snipers. The Computational Weapon Optic can communicate could help any soldier with a rifle.

The Future

This is only the beginning. When I visited DARPA’s TransApp program office last year, I wasn’t struck by how advanced the software was. I wasn’t even blown away by the implications, as vast and exciting as they truly are. I was stunned at how out of touch the Pentagon was in terms of innovation.

Soldiers told me how some troops in Afghanistan were still using paper maps from the 90s. So an Army private being deployed might be navigating his hometown with GPS on a smartphone one day and then confined to a pencil and protractor in combat in Afghanistan a few weeks later.

There are a lot of reasons why every soldier isn’t issued a smartphone along with a rifle, but over the past five years DARPA’s TransApp program has made progress in building a foundation for a tech-first future. The software ecosystem not only makes smartphones and tablets useable and useful on the battlefield. It enables all of the technology in a soldier’s toolkit to work together. Now, the software can power weapons systems like the Computational Weapon Optic as well as cheap helmet-mounted displays that put satellite imagery and maps right in front of soldiers’ eyes. The TransApp team has already built one, in fact.

Now think even further ahead. What could the military do with virtual reality? Well, the TransApp program already thought of that, too. The DARPA team came up with something called Crystal Hull for armored vehicles. Using a VR headset like the Oculus Rift a low cost 360-degree camera, this system would enable tank drivers to see in every direction, while making use of the TransApp mapping features. Mission data is stored automatically, just like the ballistics information from the Computational Weapon Optic, so commanders can keep track of their soldiers in real-time without dangerous radio chatter.

I tried out Crystal Hull myself and navigated through city streets as if my vehicle were made of glass. To access mission data, I used a standard Xbox controller, which the TransApp team liked because it would make immediate sense to soldiers. Again, it felt weird to treat war like a video game. But really, these types of innovations are just making use of the same technology that makes video games work. They’re making the military work better, too.

Fallout 4 See Through Scopes Black

The demo day took place during Doran Michels’ last week at DARPA. The budget for the TransApp program expired this spring. So Michel’s, a former Army infantry officer and FBI Special Agent, will move on to other projects. The TransApp project will continue, nevertheless, through the Army’s Nett Warrior project. Again, the effort to bring mobile apps to the military has only just begun. If the TransApps ecosystem continues to win support from top brass, it’s highly plausible that all soldiers will be using apps that power all of their equipment on the battlefield in the very near future. (Some already are, actually.)

There are a lot of reasons why the military may or may not arm soldiers with DARPA’s latest creation—many of them involve taxpayer dollars. But as I drove away from the base, my finger stinking like gunpowder, I thought of one reason why any peace-loving American should care. The military is treating technology and innovation differently. And it’s a very good thing to see the Pentagon bucking its overly bureaucratic past and trying to act more like Silicon Valley.

Videos via DARPA / Photos by Adam Clark Estes

Trying to figure out if you need thermal imaging or night vision? We've put together this guide on the differences and similarities between these two high tech optics so you can decide which is right for you. We'll also provide a few product suggestions so you'll get the best item for your needs.

Thermal imaging cameras are technically not cameras, but rather sensors that detect heat (also called thermal energy or infrared). Technically, these devices are detecting radiation. The amount of this radiation goes up with the temperature.

With enough precision a thermal imager can see minute differences in heat and represent this as an image (or thermogram) on a screen. The temperature differences detectable on some of the world's most sophisticated devices can be as small as 0.01째C. Various colors are used to represent temperatures so when you see a black and white thermal image the lighter the color, the hotter the object (newer thermal imagers can invert this or use a wide variety of colors). Human beings, animals and cars generate heat and are usually warmer than their surroundings, allowing the user of a thermal imager to get a good look at them. A coldblooded animal such as a snake will be harder to see because their body temperature adjusts to their surroundings.

Because they detect radiation, thermal imagers do not require any visible light to produce an image.

Firefighters

Thermal imagers can, to some degree, see through smoke and debris, allowing firefighters to find people who have passed out because of smoke inhalation, or children who are hiding in closets and too afraid to come out. A thermal imager can also tell a firefighter if a door is hot and possibly contains a fierce blaze on the other side.

Thermal Imagers enable firefighters to see people through smoke

Thermal Imaging Uses: Hunting

Hog hunters are especially fond of thermal imagers. Wild hogs can be extremely destructive, especially to farms, but they're also clever. They rarely go out during the day, and have the benefit of tree or plant cover in many areas. Farmers hunting hogs to protect their farms often use thermal imagers. They can see past their crops to find the animal underneath. Hunters also love thermal imagers for finding hidden deer. A popular choice for hunters hoping to spot game is the FLIR Scout PS-24 Thermal Camera , which is a lightweight, durable option that allows them to quickly find hogs in their fields. There are also thermal imaging rifle scopes such as the Armasight Zeus and ATN ThOR that can be attached directly to a rifle and used as a weapon sight! As an easy to carry and use thermal imager, hunters are able to scan the field for long periods of time without arm fatigue. This is an important feature to look for if you plan on using your thermal imager for long periods of time.

Military and Police

One of the most common users of a thermal imager is a law enforcement or military professional. They need to be able to see potential threats without being detected and thermal units give them this chance. Modern thermal imaging technology is tough enough to withstand the abuse of recoil, so many police officers and soldiers now employ thermal imaging rifle scopes such as the ATN ThOR 640 Thermal Imaging Weapon Sight. The drawback of using thermal imagers in life-and-death situations is that while they're incredibly effective at detecting people or animals, identification is far more challenging. You may see a man in front of you, but this doesn't mean you'll be able to tell if he's a friend or a foe.

Night Vision on left, and Thermal Imaging on the Right. Tree cover does little to hide a person from thermal!

Surveillance

Thermal imaging cameras are one of the most effective tools for surveillance because they work equally well in the day and night. A regular CCTV camera is limited by its need for light, and night vision doesn't function during the day. The chance to see through smoke and fog also gives thermal a leg up on other surveillance techniques.

Energy Audits

Heating and cooling companies have used thermal imagers for years to see where buildings are leaking heat. Small cracks or holes cause homes to lose hundreds of dollars a year on heating and cooling bills.

Deer Spotting

Some manufacturers, like FLIR, now offer thermal imagers that mount behind the grill of a car or anywhere near the front of a vehicle to allow the user to spot deer or other wildlife that can potentially run out into the road. The FLIR PathFindIR LE is a good example of a thermal imager that mounts on a vehicle and helps spot deer. Many people die every year swerving to avoid hitting a deer, and these devices help lessen the danger.