Design and predictive modeling of a veterinary drug detection sensor in paddy field water based on artificial neural networks
Junshi Huang, Bolin Huang, Shuanggen Huang, Xiaobin Wang, Jinhui Zhao

TL;DR
A new sensor system using artificial neural networks detects veterinary drugs in paddy field water quickly and in real time.
Contribution
A novel sensor system with a multi-input multi-output model for rapid detection of multiple veterinary drugs in paddy field water.
Findings
The sensor system effectively detects sulfamethazine, doxycycline hydrochloride, ofloxacin, and tetracycline hydrochloride in paddy field water.
Using phase difference data as input improved model performance with R2 values between 0.7831 and 0.8713.
The system enables real-time monitoring of veterinary drug residues across a broad frequency range.
Abstract
For rapid real-time detection of veterinary drug residues in paddy field water, we developed a novel sensor system using interdigitated electrodes as detection probes and the STM32F405RGT6 microcontroller as the core processing unit. The hardware architecture integrates multiple functional modules including excitation signal generation, signal detection, signal processing, LoRa coupled with 4G wireless communication, voltage regulation, and lithium battery charging. The system acquires three types of measurement data (amplitude ratio, phase difference, and their combination) from water samples containing sulfamethazine, ofloxacin, doxycycline hydrochloride and tetracycline hydrochloride across a broad frequency spectrum from 200 Hz to 100 MHz. Through Competitive Adaptive Reweighted Sampling (CARS) for feature selection and artificial neural network modeling, we established a…
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Taxonomy
TopicsBiosensors and Analytical Detection · Water Quality Monitoring Technologies · Melamine detection and toxicity
