Research (Jan 2024)

A Flexible, Large-Scale Sensing Array with Low-Power In-Sensor Intelligence

  • Zhangyu Xu,
  • Fan Zhang,
  • Erxuan Xie,
  • Chao Hou,
  • Liting Yin,
  • Hanqing Liu,
  • Mengfei Yin,
  • Lang Yin,
  • Xuejun Liu,
  • YongAn Huang

DOI
https://doi.org/10.34133/research.0497
Journal volume & issue
Vol. 7

Abstract

Read online

Artificial intelligence of things systems equipped with flexible sensors can autonomously and intelligently detect the condition of the surroundings. However, current intelligent monitoring systems always rely on an external computer with the capability of machine learning rather than integrating it into the sensing device. The computer-assisted intelligent system is hampered by energy inefficiencies, privacy issues, and bandwidth restrictions. Here, a flexible, large-scale sensing array with the capability of low-power in-sensor intelligence based on a compression hypervector encoder is proposed for real-time recognition. The system with in-sensor intelligence can accommodate different individuals and learn new postures without additional computer processing. Both the communication bandwidth requirement and energy consumption of this system are significantly reduced by 1,024 and 500 times, respectively. The capability for in-sensor inference and learning eliminates the necessity to transmit raw data externally, thereby effectively addressing privacy concerns. Furthermore, the system possesses a rapid recognition speed (a few hundred milliseconds) and a high recognition accuracy (about 99%), comparing with support vector machine and other hyperdimensional computing methods. The research holds marked potential for applications in the integration of artificial intelligence of things and flexible electronics.