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RGB-Based Deep Learning for Freeze Damage Detection in Strawberry: Comparing Scratch and Transfer Learning Approaches

Nijhum Paul1,2, G C Sunil1, Amin Khan3

  • 1Department of Agricultural and Biosystems Engineering North Dakota State University Fargo North Dakota USA.

Plant Direct
|December 15, 2025
PubMed
Summary
This summary is machine-generated.

Deep learning models trained from scratch accurately classify strawberry freeze damage, outperforming transfer learning. ResNet-50 achieved 97% accuracy, offering a rapid, automated solution for agriculture.

Keywords:
CNNRGBcomputer visiondeep learningfreeze damageplant stresstransfer learning

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Area of Science:

  • Agricultural Science
  • Computer Vision
  • Machine Learning

Background:

  • Freeze damage significantly impacts strawberry crops, causing economic losses.
  • Manual damage assessment is inefficient, subjective, and labor-intensive.

Purpose of the Study:

  • To develop and evaluate automated freeze damage classification for strawberry plants using deep learning and computer vision.
  • To compare the performance of different convolutional neural network (CNN) architectures and training methods.

Main Methods:

  • Utilized RGB images of strawberry plants for freeze damage classification.
  • Evaluated four CNN architectures: DenseNet-121, Inception V3, ResNet-50, and Xception.
  • Compared transfer learning (TL) with training models from scratch.

Main Results:

  • Models trained from scratch surpassed TL models, with ResNet-50 achieving 97% accuracy.
  • ResNet-50 offered the fastest inference time (3.0s), while DenseNet-121 was the most memory-efficient (26.86MB).
  • Models effectively identified severe damage but struggled with mild or minimal damage differentiation.

Conclusions:

  • Scratch-trained deep learning models provide a more accurate automated solution for strawberry freeze damage classification.
  • ResNet-50 is suitable for speed-critical applications, and DenseNet-121 for memory-constrained environments.
  • Deep learning offers a rapid, accurate, and nondestructive alternative to traditional freeze damage assessment methods.