TensorFlow-Native Implementation for Crack Detection in Concrete Structures
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Date
2025
Journal Title
Journal ISSN
Volume Title
Publisher
Mesopotamian Journal of Civil Engineering
Abstract
This paper presents a TensorFlow-native implementation for automated crack detection in concrete structures, addressing the critical need for efficient and objective infrastructure monitoring. Leveraging a Convolutional Neural Network architecture with 24.8 million parameters, the model was trained on a large-scale dataset of 40,000 images, each with a 227x227 RGB resolution. The methodology, incorporating specific framework optimizations and a rigorous training configuration, achieved a remarkable overall classification accuracy of 99.375% on the validation dataset. The model demonstrated balanced performance with precision values of 0.993 and 0.994, recall values of 0.994 and 0.993, and F1-scores of 0.994 and 0.994 for both "No Crack" and "Crack" classes. This high accuracy, coupled with balanced metrics, underscores the model's effectiveness and reliability for practical applications. The proposed solution significantly enhances real-time structural health monitoring systems, mitigating the limitations of traditional manual inspections and facilitating proactive maintenance strategies for concrete infrastructure
Description
Keywords
Concrete crack detection, Convolutional Neural Network, TensorFlow, Structural health monitoring, Deep learning.
Citation
Ayebare, M., Chavula, P., Mugisha, S., & Willbroad, B. (2025). TensorFlow-Native Implementation for Crack Detection in Concrete Structures. Mesopotamian Journal of Civil Engineering, 2025, 97-108.