# Thermographic Laplacian-pyramid filtering to enhance delamination   detection in concrete structure

**Authors:** Chongsheng Cheng, Ri Na, Zhigang Shen

arXiv: 1906.03721 · 2019-06-11

## TL;DR

This paper introduces a novel thermographic image filtering technique using Laplacian of Gaussian to improve delamination detection in concrete structures, effectively handling environmental noise and non-uniform heat distribution.

## Contribution

The paper presents an empirical filtering method based on Laplacian of Gaussian that enhances thermal image analysis for delamination detection, outperforming existing approaches in various conditions.

## Key findings

- Significant performance improvement over conventional methods.
- Capable of detecting multiple delamination sizes from a single image.
- Robust to non-uniform temperature distributions.

## Abstract

Despite decades of efforts using thermography to detect delamination in concrete decks, challenges still exist in removing environmental noise from thermal images. The performance of conventional temperature-contrast approaches can be significantly limited by environment-induced non-uniform temperature distribution across imaging spaces. Time-series based methodologies were found robust to spatial temperature non-uniformity but require the extended period to collect data. A new empirical image filtering method is introduced in this paper to enhance the delamination detection using blob detection method that originated from computer vision. The proposed method employs a Laplacian of Gaussian filter to achieve multi-scale detection of abnormal thermal patterns by delaminated areas. Results were compared with the state-of-the-art methods and benchmarked with time-series methods in the case of handling the non-uniform heat distribution issue. To further evaluate the performance of the method numerical simulations using transient heat transfer models were used to generate the 'theoretical' noise-free thermal images for comparison. Significant performance improvement was found compared to the conventional methods in both indoor and outdoor tests. This methodology proved to be capable to detect multi-size delamination using a single thermal image. It is robust to the non-uniform temperature distribution. The limitations were discussed to refine the applicability of the proposed procedure.

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Source: https://tomesphere.com/paper/1906.03721