Adaptive temperature compensation for MoS2 humidity sensor in complex environments using ISSA-BP neural network

High-precision humidity detection in complex environments is essential across various fields. In this study, a high-performance MoS2 humidity sensor with a dynamic response time of less than 3 s was developed using molten salt-assisted chemical vapor deposition. To address the challenges posed by dy...

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Bibliographic Details
Published in:Sensors and actuators. A. Physical. Vol. 379
Main Authors: Li, Dapeng, Zhang, Hechu, Chen, Aobei, Dong, Xiaoyuan, Yang, Yu, Zheng, Dezhi, Na, Rui
Format: Journal Article
Language:English
Published: Elsevier B.V 01.12.2024
Subjects:
Adaptive temperature compensation
Back propagation neural network
Improved sparrow search algorithm
MoS2 humidity sensor
Improved sparrow search algorithm
Back propagation neural network
MoS2 humidity sensor
Adaptive temperature compensation
ISSN:0924-4247
Online Access:Get full text
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Summary:High-precision humidity detection in complex environments is essential across various fields. In this study, a high-performance MoS2 humidity sensor with a dynamic response time of less than 3 s was developed using molten salt-assisted chemical vapor deposition. To address the challenges posed by dynamic ambient temperature changes on sensor accuracy, an improved sparrow search algorithm-back propagation (ISSA-BP) neural network was constructed to mitigate temperature drift and correct nonlinear errors in the sensor output. The ISSA-BP neural network utilizes a global optimization strategy with adaptive learning, significantly enhancing accuracy and efficiency by optimizing the initialization and iterative update processes of traditional algorithms. Experimental results indicate that the proposed ISSA-BP achieves an average relative error of just 0.75% in humidity sensors across various environmental conditions, representing a 5.8-fold improvement in accuracy compared to traditional methods. Additionally, the algorithm demonstrated high robustness and accuracy across different environments, sensors, and datasets, confirming its applicability in complex and variable scenarios. [Display omitted] •Fabricate a MoS2 humidity sensor using molten salt-assisted chemical vapor deposition.•Propose an ISSA to enhance global optimization and boost optimization efficiency.•Develop an ISSA-BP for precise temperature compensation in dynamic environments.
ISSN:0924-4247
DOI:10.1016/j.sna.2024.115982