AI Article Synopsis
- Communication via hand gestures enhances human-computer interaction by making it more intuitive and natural, especially using contactless methods.
- A new stretchable ultrasound array has been developed that features compact transducer elements, enabling effective hand gesture recognition and material identification without physical contact.
- This ultrasound array operates up to 10 cm away and uses a novel metric called areal-time constant to differentiate materials based on their unique triboelectric properties, advancing the potential for improved human-robot interaction.
Article Abstract
Communication with hand gestures plays a significant role in human-computer interaction by providing an intuitive and natural way for humans to communicate with machines. Ultrasound-based devices have shown promising results in contactless hand gesture recognition without requiring physical contact. However, it is challenging to fabricate a densely packed wearable ultrasound array. Here, a stretchable ultrasound array is demonstrated with closely packed transducer elements fabricated using surface charge engineering between pre-charged 1-3 Lead Zirconate Titanate (PZT) composite and thin polyimide film without using a microscope. The array exhibits excellent ultrasound properties with a wide bandwidth (≈57.1%) and high electromechanical coefficient (≈0.75). The ultrasound array can decipher gestures up to 10 cm in distance by using a contactless triboelectric module and identify materials from the time constant of the exponentially decaying impedance based on their triboelectric properties by utilizing the electrostatic induction phase. The newly proposed metric of the areal-time constant is material-specific and decreases monotonically from a highly positive human body (1.13 m s) to negatively charged polydimethylsiloxane (PDMS) (0.02 m s) in the triboelectric series. The capability of the closely packed ultrasound array to detect material along with hand gesture interpretation provides an additional dimension in the next-generation human-robot interaction.
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|---|---|
| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC11022739 | PMC |
| http://dx.doi.org/10.1002/advs.202303403 | DOI Listing |
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