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ReCAN: a light-weight residual channel attention network with alternating skip connection for robust medical image classification

Citation

Abstract

This thesis presents ReCAN, a lightweight convolutional neural network tailored for efficient and accurate medical image classification on the MedMNIST benchmark. Motivated by the need for compact architectures that can deliver state-of-the-art results on resource-constrained hardware, this work integrates a ResNet-18 backbone with a novel multi-stage channel attention mechanism comprising five sequential layers with varying reduction ratios. The architecture is methodologically founded on iterative experimentation with dilated convolutions, advanced residual connections, and ablation studies on attention modules to optimize the trade-off between model complexity and classification performance. Comprehensive evaluations on multiple MedMNIST datasets, including PathMNIST and others, demonstrate that ReCAN consistently outperforms MedMamba—both its Tiny in terms of accuracy, while achieving lower parameter counts and floating point operations (FLOPs) sometime and larger variants as well in terms of accuracy. The results establish that careful design of channel attention and skip connections within a CNN backbone can surpass more computationally intensive models without sacrificing generalization. ReCAN thus contributes a new, efficient deep learning baseline for medical image analysis, supporting future research in scalable biomedical AI applications.

Description

Cataloged from PDF version of thesis.
Includes bibliographical references (pages 83-84).
This thesis is submitted in partial fulfillment of the requirements for the degree of Bachelor of Science in Computer Science and Engineering, 2025.

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Type

Thesis