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Related Experiment Video

Updated: May 7, 2026

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A Triple-Perception Adaptive Network for In Vivo Organ Recognition Using Diffuse Reflectance Hyperspectral Imaging.

Youchao Xie1, Li Han1, Wensheng Cai1,2

  • 1Research Center for Analytical Sciences, Tianjin Key Laboratory of Biosensing and Molecular Recognition, College of Chemistry, Nankai University, Tianjin 300071, China.

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|May 6, 2026
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Summary
This summary is machine-generated.

A new network, TriAd, uses hyperspectral imaging to identify organs in zebrafish, overcoming variations in development and experiments for better noninvasive imaging.

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Area of Science:

  • Biomedical optics
  • Machine learning for biological imaging
  • Noninvasive in vivo imaging

Background:

  • Near-infrared diffuse reflectance hyperspectral imaging (HSI) captures organ-specific spectral data.
  • Interindividual spectral variability arises from physiological states and experimental conditions.
  • Accurate organ recognition requires addressing these spectral variations.

Purpose of the Study:

  • Develop a novel adaptive network (TriAd) for in vivo organ recognition in zebrafish.
  • Correct for interindividual variability in HSI data caused by experimental and developmental differences.
  • Enhance the accuracy and robustness of noninvasive organ identification.

Main Methods:

  • A triple-perception adaptive network (TriAd) with three branches: graph convolutional network, 2D convolutional neural network, and discrete wavelet transform.
  • Utilizing maximum mean discrepancy to minimize cross-domain differences between perceptual branches.
  • Training and evaluation on a near-infrared diffuse reflectance HSI dataset of 12 zebrafish organs across two developmental stages.

Main Results:

  • TriAd demonstrated superior classification performance for in vivo organ recognition in zebrafish.
  • The network effectively corrected for interindividual variability and cross-domain differences.
  • TriAd outperformed existing chemometric calibration transfer, adversarial domain adaptation, and deep learning methods.

Conclusions:

  • TriAd offers a robust framework for hyperspectral analysis in the presence of experimental and developmental variations.
  • The developed network shows significant potential for applications in living object analysis and noninvasive medical imaging.
  • This approach advances noninvasive organ recognition through adaptive hyperspectral data processing.