Engineers unveil new patch to help people control robotic exoskeletons
Hey superhero fans, meet the researchers making real life Iron Man technology possible. In a new study, engineers from Korea and the United States have developed a wearable, stretchy patch that could help to bridge the divide between people and machines鈥攁nd with benefits for the health of humans around the world.
The patch, about the size of a BandAid, sticks to your skin and picks up tiny signals coming from human muscles. In lab experiments, the researchers showed that humans could use these devices to operate robotic exoskeletons more efficiently鈥攎achines that try to mimic, and even enhance, the power of human muscles and bones.
The team hopes that one day, similar patches may help people move robotic arms or legs, or even assist doctors in diagnosing neurological illnesses.
鈥淲e get these natural signals from muscles and send them to outside equipment to give people more control,鈥 said Jianliang Xiao, associate professor in Paul M. Rady Department of Mechanical Engineering at 蜜糖直播 Boulder.
Xiao led the study alongside Jaewoong Jeong, associate professor in the School of Electrical Engineering at the Korea Advanced Institute of Science and Technology (KAIST). The team described its design, known as the stretchable microneedle adhesive patch (SNAP), .
Subject in a lab wears a robotic device to help him lift heavy objects. (Credit: Jaewoong Jeong/KAIST)
The secret to SNAP comes down to what the researchers call 鈥渕icroneedles.鈥 The patches are integrated with an array of about 144 needles. They are made of silicon coated with gold and are less than a hundredth of an inch long, making them hard to see with the naked eye.
The idea of small needles poking your body may sound scary, but the team鈥檚 microneedles only enter the top layer of your skin and aren鈥檛 long enough to reach the body鈥檚 pain sensors. That makes the patches surprisingly comfortable to wear, even for long periods.
鈥淧eople can wear these patches for a week, and we see hardly any skin irritation,鈥 Jeong said.
Like your own skin
Xiao noted that the human body, just like many machines, is pulsing with electricity on a near constant basis.
Every time you bend your arm, twist your back or even twitch a finger, currents run along your muscle fibers. Doctors typically monitor these electromyography (EMG) signals using gel electrodes that stick onto your skin, but the task can get tricky鈥攇el dries up over time, and when people jump or run, the electrodes often slide around, resulting in poor data.
In the new study, Xiao, Jeong and their colleagues set out to design an EMG sensor that could function almost like a part of your body.
The team鈥檚 SNAP devices are self-contained machines made of a stretchy, polymer base. They incorporate stretchable serpentine wires fabricated out of ultrathin metal. They also come with their own batteries and are remarkably resilient: In lab experiments, the group found that the patches collected accurate EMG data, even when human subjects were running on treadmills or doing squats.
鈥淭he patch deforms in a way very similar to your own skin,鈥 Xiao said.
Human and machine
They could also help people do some very non-human things.
To test out those possibilities, researchers from KAIST ran a series of experiments in their lab in which they asked real people to take on an everyday task鈥攍ifting a heavy weight from the floor. In this case, the humans had a little help. They strapped on a machine that looks a bit like a knapsack and provides a robotic boost for the lower back.
Some of the subjects also wore SNAP devices just above their glute muscles. When the patches detected that the subjects were flexing their muscles during lifting, the devices called for help. They sent a wireless signal to the robotic backpacks to begin moving鈥攁ll in a fraction of a second. Humans wearing the patches, the team reported, used an average of 18% less muscle power while lifting than subjects who were using the robotic exoskeleton on its own.
鈥淭hese devices can reduce the muscles you need to accomplish certain tasks,鈥 Xiao said.
He added that the researchers still have a lot of work to do before their patches make it into the real world. For a start, they need to test the tools with other kinds of exoskeleton machines.
Still, Tony Stark may soon not be the only Iron Man in town.
鈥淲e hope that our work in the lab will eventually help to make life better for a lot of people,鈥 Xiao said.