While many military robots are the increasingly familiar small and tank-like unmanned ground vehicles (UGVs) moving on treads or wheels, other more specialized types are appearing. Some have wings and can be hand-launched from a backpack, or remotely from an otherwise inaccessible location.
Other military robots are autonomous vehicles that can drive themselves, or consist of integrated hardware kits that either convert existing vehicles to autonomous navigation or add remote control abilities. Most of these robotic systems include a wide range of audio, video, sensor, and communications abilities, and some are accompanied by sophisticated software suites.
Click on the image below to see 10 of these robotic systems that are making strides in the military.
The Nighthawk Micro Air Vehicle (MAV) is a rugged, fully automated unmanned aerial vehicle (UAV) made of carbon fiber composite. It uses GPS and autopilot technologies for navigating unfriendly territories to conduct intelligence, surveillance, and reconnaissance missions. Its range is over 10 km (6 miles) and flight time is more than 60 minutes. The Nighthawk weighs 1.6 lb (725 gm), has a wingspan of 26 inches (66 cm), and a cruise speed of 18 to 30-plus knots. The MAV is equipped with 8-channel command and control, 4-channel video, and operates on batteries. It has forward and side-looking electro-optical cameras and a side or forward-looking thermal imager. A PC-based user interface provides real-time visual feedback and point-and-click waypoint navigation. The system can also be operated in semi-manual and manual flight modes. MAVs are stored fully assembled and ready to launch in a tube measuring 6 inches (15.2 cm) in diameter and attached to an assault pack. The assault pack's outer pockets hold a rugged laptop computer, the ground control station, and an antenna assembly. The pack's total weight is about 15 lb (6 kg). (Source: Applied Research Associates)
well, duh, isn't that whats always happened in the past ? a few issues past (of design news) there was this ad by a miniature motor manufacturer depicting 3 swat team members throwing a baton shaped robot around the side of a container to gather intelligence about a situation in a container yard. what situation in your house might be eligible for observation ? since much of whats depicted here is hobby technology, i wonder how other nations might be experimenting . microsoft's kinect, a cheap solution with SDK downloadable, less that $150, is a great set of eyes and ears for the military experimenter in (fill in the countries you hate or are fearful of)... well, enjoy today and tomorrow, thats the place we are and the place we're goin' to.
You are right about Wi-Fi. It is only sort of hacker resistant. So a set of functions that would be fine for a robot washing windows would not be good enough for a robotic watchman. And just consider how secure a robotic "soldier" with two mini-cannons at even 2000 rounds per minute would need to be. Perhaps one of those secure military protocols might be secure enough if it were to use encrypted commands coupled with IFF logic judgement.
Funny you should mention hacking, William--WiFi is eminently hackable and that fact often crosses my mind when writing about the wireless comms used in these mobile, semi- or fully-autonomous robots. I've read that it's a secure version of WiFi, but have not checked that out: my charter is robots, not comms. Does anyone know what the secure military protocols are?
Jack, I think your comment is right on. I often think the same thing when researching these: what the heck are they doing that they aren't telling us about, if these are the publicly announced models? OTOH, some of the uses for the publicly announced models aren't really discussed in detail, but you can often read between the lines.
Some of these robots may be suyitable for "running point" in a hostile area patrol, and they appear to offer a lot of advantages. For starters they could be set to relay what they observe back to those behind them, so that even if they are destroyed or disabled, what they saw is available for others to see. That much alone is quite valuable. In addition they are smaller targets and more robust as far as taking damage. They may not yet have adequate judgement to be safe to use for asaulting, but they certainly would be a huge benefit for observing and defusing ordinance of all kinds. But until we have a control system that is completely immune to hacking it would not be very smart to deploy something that could be turned against us. That fact should be obvious to all, and it is why actual robotic warriors are still a ways off.
Elizabeth, It amazes me as to how quickly robotic systems advance and the great uses they are designed carry out. I would have to say that each is tremendously unique and their mission is well defined before development work begins. Thank you for giving us this great update.
The day I stand face to face with a military robot used to control me, is the day I leave whatever country I am in. The impersonal lifeless feel I get from this brings to mind a dystopian future, like THX or Cloud Atlas. The sad part is, many people come into contact with these types of devices all the time. Imagine living countless decades, then to be killed by a robot.
The fodder for science fiction for countless centuries to come.
According to a study by the National Institute of Standards and Technology, one of the factors in the collapse of the original World Trade Center towers on Sept. 11, 2001, was the reduction in the yield strength of the steel reinforcement as a result of the high temperatures of the fire and the loss of thermal insulation.
Robots are getting more agile and automation systems are becoming more complex. Yet the most impressive development in robotics and automation is increased intelligence. Machines in automation are increasingly able to analyze huge amounts of data. They are often able to see, speak, even imitate patterns of human thinking. Researchers at European Automation
call this deep learning.
The promise of the Internet of Things (IoT) is that devices, gadgets, and appliances we use every day will be able to communicate with one another. This potential is not limited to household items or smartphones, but also things we find in our yard and garden, as evidenced by a recent challenge from the element14 design community.
Focus on Fundamentals consists of 45-minute on-line classes that cover a host of technologies. You learn without leaving the comfort of your desk. All classes are taught by subject-matter experts and all are archived. So if you can't attend live, attend at your convenience.