Yong-Soo Ha , Myounghak Oh , Minh-Vuong Pham , Ji-Sung Lee , Yun-Tae Kim
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引用次数: 0
摘要
为了确保即使在夜间等低照度条件下也能持续监测加固固土墙(RSW),评估基于深度学习的检测性能势在必行。在本研究中,我们构建了一个实验室 RSW 模型,并生成了一个具有不同照度水平的数据集,以评估图像增强和块体检测的影响。我们采用了多种图像增强方法来提高图像质量,并评估它们对深度学习的影响。RGB 优化(RO)被提出来优化 RGB 强度,并与伽玛校正、直方图均衡化和利用照度图估计的低照度图像增强进行了比较。从亮度阶次误差、峰值信噪比和结构相似性指数度量来看,RGB 优化表现出了出色的图像增强性能,确保了图像的高质量。使用 Mask R-CNN 训练的 RO 模型表现出出色的准确率、召回率和 F1 分数,在低照度条件下具有出色的检测性能,使 F1 分数提高了 7.44%。在不同照度条件下保持相似性(如亮度顺序误差和结构相似性)的图像增强技术有助于提高掩膜 R-CNN 的区块检测性能。
Enhancements in image quality and block detection performance for Reinforced Soil-Retaining Walls under various illuminance conditions
To ensure continuous monitoring of reinforced soil-retaining walls (RSWs) even under low-illuminance conditions, such as during the night, it is imperative to evaluate the performance of deep learning-based detection. In this study, we constructed a laboratory RSW model and generated a dataset with varying illuminance levels to assess the impact of image enhancement and block detection. Various image enhancement methods were applied to improve image quality and evaluate their effect on deep learning. RGB optimization (RO) was proposed to optimize RGB intensity and compared with gamma correction, histogram equalization, and low-light image enhancement with illumination map estimation. RO demonstrated outstanding image enhancement performance, as evidenced by lightness order error, peak signal-to-noise ratio, and structural similarity index measure, ensuring high image quality. The trained RO model using Mask R-CNN exhibited excellent accuracy, recall, and F1 score, delivering remarkable detection performance under low illuminance conditions, resulting in a 7.44 % improvement in the F1 score. Image enhancement techniques that maintain similarity, such as lightness order error and structural similarity, across varying illuminance conditions contribute to enhancing the block detection performance of Mask R-CNNs.
期刊介绍:
The objective of this journal is to communicate recent and projected advances in computer-based engineering techniques. The fields covered include mechanical, aerospace, civil and environmental engineering, with an emphasis on research and development leading to practical problem-solving.
The scope of the journal includes:
• Innovative computational strategies and numerical algorithms for large-scale engineering problems
• Analysis and simulation techniques and systems
• Model and mesh generation
• Control of the accuracy, stability and efficiency of computational process
• Exploitation of new computing environments (eg distributed hetergeneous and collaborative computing)
• Advanced visualization techniques, virtual environments and prototyping
• Applications of AI, knowledge-based systems, computational intelligence, including fuzzy logic, neural networks and evolutionary computations
• Application of object-oriented technology to engineering problems
• Intelligent human computer interfaces
• Design automation, multidisciplinary design and optimization
• CAD, CAE and integrated process and product development systems
• Quality and reliability.
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