New Tech Conveys Emotional Touch Long-Distance – Scientific American

Out of This World Offer! Save 30%
Out of This World Offer! Save 30%
Complex social information can be felt through a virtual touch
Distancing amid the COVID-19 pandemic has made both physical and social connections a touch more difficult to maintain. For Stanford University graduate student Millie Salvato, being apart from her girlfriend on the opposite coast has proved challenging.
Sometimes a text or video call is not enough, and people in Salvato’s situation often long for a way to send a loving caress or comforting squeeze from afar. For a new study detailed in IEEE Transactions on Haptics, she and her colleagues demonstrated a wearable sleeve that can simulate human touch—and convey abstract social messages sent electronically.
“It’s a unique work that looks at how our social touch is delivered and then … how to reproduce it,” says Gregory Gerling, a touch researcher at the University of Virginia who was not involved in the study.
Salvato and her team measured how 37 participants expressed social information in different situations. In each test, one person wore a pressure-sensing device on an arm, and another touched it to respond to scenarios involving six intended meanings: attention seeking, gratitude, happiness, calming, love and sadness.
After collecting 661 touch movements—squeezes, strokes, shakes, pokes, and the like—Salvato and her colleagues mapped the location and pressure of each. Next, they used a machine-learning algorithm to select the movements that were most reliably part of each response. Finally, they programmed a wearable sleeve to simulate these movements using eight embedded disks that vibrate when electronically signaled.
“It doesn’t feel like an actual human hand … but it doesn’t feel like these discrete motions either,” Salvato says, as one might expect from large moving disks. “It feels nice, honestly.”
Even with no training, 30 new study participants correctly matched the simulated touches to the six scenarios 45 percent of the time—about 2.7 times more than by chance. For comparison, a previous study from Gerling’s laboratory found participants could match scenarios for touches from real human hands 57 percent of the time.
In the new study, “I think it’s interesting that participants can reliably understand what touch has been delivered to them at a pretty high rate, given the sparse amount of information that they have available to them,” Gerling says.
Previous research has found that social touch is important for physical and mental health. In the future, instead of just sending a <3 to a loved one by phone or computer, adding a “touch emoji” might help us feel just a little bit closer.
This article was originally published with the title “Touching Emoji” in Scientific American 326, 5, 17 (May 2022)
doi:10.1038/scientificamerican0522-17
Richard Sima is a freelance science writer who specializes in the life and environmental sciences. He received a Ph.D. in neuroscience from Johns Hopkins University.
Louis Jacobson and Kaiser Health News
Adam Aton and E&E News
Joanna Thompson
Anna Blaustein

John Fialka and E&E News
Discover world-changing science. Explore our digital archive back to 1845, including articles by more than 150 Nobel Prize winners.
Follow us
Scientific american arabic
© 2022 Scientific American, a Division of Springer Nature America, Inc.
All Rights Reserved.
Support science journalism.
Thanks for reading Scientific American. Knowledge awaits.
Already a subscriber? Sign in.
Thanks for reading Scientific American. Create your free account or Sign in to continue.
See Subscription Options
Continue reading with a Scientific American subscription.
You may cancel at any time.

source

Enable Exclusive OK No thanks