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Simultaneous dual-analyte detection biosensor through a stacking-based ensemble machine learning approach: design and

Kawsar Ahmed1,2,3,4, Ruhul Amin5,6, Md Mamun Ali2

  • 1Department of Electrical and Computer Engineering, University of Saskatchewan, 57 Campus Drive, Saskatoon, SK S7N 5A9, Canada.

Biomedical Optics Express
|April 13, 2026
PubMed
Summary
This summary is machine-generated.

A new photonic crystal fiber surface plasmon resonance sensor was designed using machine learning. This sensor accurately detects a wide range of refractive indices, showing high sensitivity for biosensing applications.

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Area of Science:

  • Photonics and Optics
  • Biomedical Engineering
  • Machine Learning Applications

Background:

  • Surface Plasmon Resonance (SPR) sensors are crucial for detecting changes in refractive index.
  • Photonic Crystal Fibers (PCFs) offer unique light-confining properties for enhanced sensing.
  • Machine learning (ML) models can optimize complex sensor designs and predict performance.

Purpose of the Study:

  • To design and optimize a novel PCF-SPR sensor for a broad refractive index (RI) range (1.15-1.41).
  • To leverage a stacking ensemble ML model for accurate sensor performance prediction.
  • To evaluate the sensor's sensitivity and potential for multi-analyte biosensing.

Main Methods:

  • A stacking ensemble ML model combining Random Forest Regressor, Gradient Boosting Regressor, and Decision Tree Regressor was developed.
  • Finite Element Method (FEM) with a Perfectly Matched Layer (PML) boundary condition was used for simulation.
  • A 40 nm gold layer was applied to the PCF outer surface for SPR excitation.

Main Results:

  • The ML model achieved high accuracy with MSE of 0.3584, MAE of 0.2151, and R² of 0.9769.
  • The sensor demonstrated exceptional sensitivity: Amplitude Sensitivity (AS) of -1204 RIU⁻¹ and Wavelength Sensitivity (WS) of 10,000 nm/RIU.
  • The sensor design is practical and validated for multi-analyte biosensing applications.

Conclusions:

  • The developed stacking ML model effectively designs and optimizes PCF-SPR sensors.
  • The proposed sensor exhibits high sensitivity and a wide RI detection range, suitable for various biochemical and biological analytes.
  • This approach offers a flexible and powerful tool for designing advanced multi-analyte biosensors.