Amplifying Human Potential with Robotic Exoskeletons
Enabling individuals with limited mobility to walk again and construction workers to effortlessly lift up to 200 pounds are some applications of this technology.
Korean researchers present an exoskeleton for work that adapts to the movements of the spine.
Enabling individuals with limited mobility to walk again and construction workers to effortlessly lift up to 200 pounds are some applications of this technology.
The effect, announced by a Chinese scientist, is achieved thanks to a mesh of cylindrical lenses that produce the refraction of light.
Next-gen clothing adjusts to temperature changes, shrinking for enhanced insulation against the cold.
An Austrian startup succeeds in creating a salmon fillet with vegetable protein that opens the possibility of a diet fueled by meat and fish printers.
Recent research demonstrates the feasibility of sunlight as a power source for autonomous underwater vehicles and fixed sensors.
Two U.S. scientists have developed a technology that transforms CO2 into cellulose, making it possible to manufacture carbon-negative garments.
Soft robots developed by a team of researchers are biodegradable, edible, and bendable, and are printed with bio-inks made from seaweed components.
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