US Department of Defense: Ten Most Common Electronic Human Technologies [Full Text]

According to foreign media reports, the US Department of Defense hopes that the future US military forces will be faster, stronger, and more combative. Therefore, Americans have been devoting themselves to the research of technologies such as electronic man in the future. In the so-called electronic human force, electronic people have more alert and flexible eyes, abnormally sensitive skin, and flexible, graspable machine prostheses. With the help of related technologies such as robotics, nanotechnology, and neuroscience, electronic human forces will increasingly appear on the real battlefield. The following are the ten most common electronic human technologies:
In less than a decade, the U.S. Department of Defense Advanced Research Projects Agency's "Revolutionary Prosthetics" program has transformed several of the world's most advanced artificial limbs, such as the DEKA-developed mechanical arm. These prostheses can react to the movements of fingers and toes through the lines. In the next step, these advanced artificial limbs will be integrated with the wearer's nervous system so that they can fully respond to various nerve signals. Scientists at the Johns Hopkins University in the United States will conduct human trials on their model prostheses this year. The microarray will be implanted in the brain. The user can control the prosthesis to perform various operations such as independent finger movements and weight-bearing operations.

2. Mind control

The human-machine intelligence integration research project sponsored by the US Department of Defense has been underway for many years. This is also a long-term goal of the US Department of Defense. Using the computer as an intermediate sensing medium, long-distance exchanges between future units do not need to speak at all. Last year, the U.S. Department of Defense’s Advanced Research Projects Agency launched a “silent call” plan. The program will first use the electroencephalograph scanner to read brain signals and then decode these signals to build a brainwave dictionary. After this, the U.S. Department of Defense’s Advanced Research Projects Agency hopes that this prototype device can actually read and translate brain waves, and then translate the translated “words” into the interlocutors’ brains to achieve telepathic “silent” sounds. call". This telepathy can also be applied to mind control.

The U.S. Department of Defense has funded several projects that specialize in the use of animal "forces" such as those from shark agents to bee bomb detectors. With a super-sensitive nose and a tiny body, rats may one day replace the dogs and are used to sniff bombs and biochemical threats and to find disaster survivors. Of course, some electrodes need to be properly implanted in their brains. With funding from the U.S. Department of Defense’s Advanced Research Projects Agency, scientists at the University of Florida implanted electrodes in three functional areas of the mouse brain, the olfactory function zone, the willingness zone, and the action zone. Stimulated rats are trained to sniff some threats, such as TNT explosives. In this process, scientists can detect and record special brain wave patterns when rats sniff different targets. Recently, Japanese scientists also invented a "mouse car." Scientists can use their minds to direct mice that have their electrodes implanted into electrodes to control small cars or mechanical equipment.

4. Robot exoskeletons

Wearable robot costumes will help troops improve combat effectiveness and endurance. The Raytheon Sarcos model recently developed by Raytheon Company has claw-shaped hands. After the American soldiers wear this kind of equipment, their strength and endurance will increase by 20 times than normal. For Lockheed Martin's HULC model, the wearer can easily carry 200 pounds (about 91 kilograms) of heavy objects, and can complete more arduous tasks with less energy consumption. At present, the U.S. Army Soldier System Center is conducting military experiments on robotic exoskeletons.

5. Self-assembled contact lenses

The next-generation contact lenses, which consist of sensors, antennas, semiconductor circuits, and light-emitting diodes, can display any important visual data, such as the scope of gun sights, and even textual information, into the user's eyes. Scientists at the University of Washington have tested the contact lenses on rabbits. Next, they will further improve the pixel and color effects of the contact lenses. On the battlefield, there is a second application of the contact lens. The additional sensors on the eyewear can monitor a variety of health indicators, such as blood glucose levels and heart rate.

6. Monkey Robot Telepathy

One day in the future, soldiers can communicate through telepathy. They can also control weapons through a brain-computer interface, rather than through buttons or triggers. Scientists have been testing monkeys for many years. Under the auspices of the US Department of Defense’s Advanced Research Projects Agency, neuroscientists at Duke University in the United States implanted electrodes in the brains of monkeys and trained them to use electronic robots to feed themselves bananas.

7. Laboratory artificial blood

A large number of man-made universal blood will one day be able to be applied to trauma treatment to solve the problem of insufficient blood bank. Under the auspices of the U.S. Department of Defense’s Advanced Research Projects Agency, American biotechnology company Arteriocyte recently used the cord blood cells to make the first artificial blood.

8. Brain implanter

In fact, it is not only the active forces that use electronic man technology. Almost 10% to 20% of the troops from the Iraqi and Afghan battlefields suffered brain injuries. In the future, they will likely undergo brain implant surgery to repair their damaged brain. With funding from the U.S. Department of Defense’s Advanced Research Projects Agency, scientists at Stanford University and Brown University are developing brain implants that can be used as replacements for damaged brain areas.

9. Remote control of flying insects

Remotely controlled beetles, bees, etc. are being planned for military use. With the support of the US Department of Defense, some scientists are using moths for testing. Earlier, Georgia Tech scientists have figured out how to make them live longer. During larval stages, MEMS, plus microphones and sensors are all implanted into the moth's brain. During larval growth, these implants fuse with growing insect body tissues. Through remote control, these moths can perform a variety of tasks in areas that are difficult for humans to reach, such as secret espionage and biochemical threat detectors.

10. Artificial skin

Artificial skin tissue has been applied to wound treatment. However, scientists at Stanford University and the University of California, Los Angeles at the beginning of the year all developed real artificial skin. The sensitivity of these artificial skins is sufficient to detect the slight touch of butterflies. They are all made of flexible, delicate rubber, nanowires, and electrodes. This artificial skin can be applied to an electronic human being for two purposes, namely, a hypersensitive human prosthesis or a robot arm. This sensitivity can help the prosthesis accomplish some tasks that can only be accomplished with a slight touch.

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