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Minimizing Off-Axis Bending Effects on Flexible Surface Acoustic Wave Sensing Powered by Integrated Machine Learning Algorithms

Authors
  • Ji, Zhangbin
  • Zhou, Jian
  • Guo, Yihao
  • Xia, Yanhong
  • Liang, Dongfang
  • Fu, Richard
Publication Date
Aug 29, 2024
Source
Apollo - University of Cambridge Repository
Keywords
Language
English
License
Green
External links

Abstract

Flexible surface acoustic wave (SAW) sensors have gained significant attention due to their favorable attributes such as conformability to curved surfaces, wireless/passive functions, and digital outputs. However, bending, especially complex off-axis bending deformation, often causes severe interference to the targeted detection signals with flexible SAW sensors, limiting their accurate monitoring on the curved/deformed surfaces. To address such a critical issue, we selected AlScN/ultra-thin flexible glass-based SAW devices as an example, chose temperature as the targeted sensing parameter, and developed a model based on machine learning algorithms to minimize complex off-axis bending effects in temperature monitoring. Response characteristics of the flexible SAW devices to temperature variations and off-axis deformations were experimentally and theoretically investigated. Correlations between device’s responsive features and target parameter (temperature) were established using eight machine learning algorithms. The optimized model was established with a normalized root mean square error less than 1% and the determination coefficient R2 was larger than 0.997 for temperature predictions subject to complex off-axis strain perturbations. Finally, the flexible SAW sensor showed a highly consistent temperature sensing capability under arbitrary off-axis bending conditions on a curved surface of a jet engine model. / This work was supported by the National Science Foundation of China (No. 52075162), and the Science and Technology Innovation Program of Hunan Province (2023RC3099). We also thank the Corning Corporation for the provision of flexible glass.

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