Author(s): Su, Y (Su, Yue); Ma, KA (Ma, Kainan); Zhang, X (Zhang, Xu); Liu, M (Liu, Ming)

Source: SENSORS Volume: 22 Issue: 3 Article Number: 759 DOI: 10.3390/s22030759 Published: FEB 2022

Abstract: Flexible pressure sensors have been studied as wearable voice-recognition devices to be utilized in human-machine interaction. However, the development of highly sensitive, skin-attachable, and comfortable sensing devices to achieve clear voice detection remains a considerable challenge. Herein, we present a wearable and flexible pressure and temperature sensor with a sensitive response to vibration, which can accurately recognize the human voice by combing with the artificial neural network. The device consists of a polyethylene terephthalate (PET) printed with a silver electrode, a filament-microstructured polydimethylsiloxane (PDMS) film embedded with single-walled carbon nanotubes and a polyimide (PI) film sputtered with a patterned Ti/Pt thermistor strip. The developed pressure sensor exhibited a pressure sensitivity of 0.398 kPa(-1) in the low-pressure regime, and the fabricated temperature sensor shows a desirable temperature coefficient of resistance of 0.13% & LCIRC; C in the range of 25 & LCIRC; C to 105 & LCIRC; C. Through training and testing the neural network model with the waveform data of the sensor obtained from human pronunciation, the vocal fold vibrations of different words can be successfully recognized, and the total recognition accuracy rate can reach 93.4%. Our results suggest that the fabricated sensor has substantial potential for application in the human-computer interface fields, such as voice control, vocal healthcare monitoring, and voice authentication.

Accession Number: WOS:000760790700001

PubMed ID: 35161507

eISSN: 1424-8220

Full Text: https://www.mdpi.com/1424-8220/22/3/759