Wearable-tech glove makes an interpretation of communication via gestures into discourse continuously

Wearable-tech glove makes an interpretation of communication via gestures into discourse continuously


  • Post By : Kumar Jeetendra

  • Source: University of California - Los Angeles

  • Date: 29 Jun,2020

UCLA bioengineers have made a glove-like apparatus that may interpret American Sign Language to English language in real time even though a smartphone program.

“Our expectation is that it opens a simple way for individuals that use sign language to communicate with non-signers without having somebody else to interpret for them,” explained Jun Chen, an assistant professor of bioengineering in the UCLA Samueli School of Engineering and the researcher on the study. “Additionally, we expect it will help more people understand sign language themselves”

The system involves a set of gloves using thin, stretchable sensors that operate the duration of all those five hands. These detectors are created from conducting yarns, select up hand movements and finger types which endure for separate characters, figures, phrases and words.

The apparatus then turns the finger moves into electrical signalsthat can be sent to some dollar-coin-sized circuit board worn around the wrist. The board communicates those signals to your smartphone which translates them to spoken words in the speed of roughly a 1 term per minute.

The investigators added adhesive detectors to people’ faces in between their eyebrows as well as on just one side of the mouths — to catch facial expressions which are part of American Sign Language.

Complex wearable systems which provided translation out of American Sign Language were restricted with heavy and bulky apparatus layouts or were not able to wear,” Chen stated.

The apparatus created by the UCLA group is made of lightweight and economical but durable, stretchable polymers. The digital detectors are also quite flexible and affordable.

The wearers replicated every hand gesture 15 occasions. A habit machine-learning algorithm flipped those expressions to the letters, words and numbers that they represented.

Story Source:

Materials provided by University of California – Los Angeles and Content may be edited for style and length.

Journal Reference:

Zhihao Zhou, Kyle Chen, Xiaoshi Li, Songlin Zhang, Yufen Wu, Yihao Zhou, Keyu Meng, Chenchen Sun, Qiang He, Wenjing Fan, Endong Fan, Zhiwei Lin, Xulong Tan, Weili Deng, Jin Yang & Jun Chen. Sign-to-speech translation using machine-learning-assisted stretchable sensor arrays. Nature Electronics, 2020 DOI: http://dx.doi.org/10.1038/s41928-020-0428-6

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