Detection of Internal Defects in Concrete and Evaluation of a Healthy Part of Concrete by Noncontact Acoustic Inspection Using Normalized Spectral Entropy and Normalized SSE

Sugimoto, Kazuko; Sugimoto, Takashige

doi:10.3390/e24020142

Cited by 7 publications

(7 citation statements)

References 14 publications

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“…Moreover, exploration experiments have been carried out in actual concrete structures such as tunnels, viaducts 21) and underground cavities, [22][23][24] and acoustic irradiation experiments using tiled outer wall specimens from a flying drone. 25,26) Furthermore, spatial spectral entropy (SSE) 22,27) can distinguish between resonance phenomena caused by internal defects and resonance phenomena of the LDV itself by using the planar vibration velocity distribution. A resonance judgment process 28) has also been devised to determine whether the emitted signal caused vibration.…”

Section: Noncontact Acoustic Inspection Methodsmentioning

confidence: 99%

Study on movement measurement for internal defects in concrete structures by noncontact acoustic inspection method using correlation processing

Sugimoto,

Nakagawa,

Sugimoto

et al. 2024

Jpn. J. Appl. Phys.

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The noncontact acoustic inspection method using acoustic irradiation induced vibration and a scanning laser Doppler vibrometer can detect internal defects in the surface layer of concrete structures, etc., over long distances and without contact. Since this method uses flexural vibration in principle, it can be used as an alternative method to tapping inspection. Therefore, there has been an increase in requests for realizing movement measurement. Thus, an experiment was conducted to verify whether movement measurement was possible by mounting multiple LDVs and sound sources that did not have scanning mechanisms on a moving trolley. The experimental results revealed that by using cross-correlation processing between the transmitted and received waveforms, it is possible to perform movement measurements at low speeds of about 2 km/h.

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Section: Noncontact Acoustic Inspection Methodsmentioning

confidence: 99%

Study on movement measurement for internal defects in concrete structures by noncontact acoustic inspection method using correlation processing

Sugimoto,

Nakagawa,

Sugimoto

et al. 2024

Jpn. J. Appl. Phys.

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“…where Q f denotes the amplitude of the signal at frequency f. The SSE extends this analysis from independent signals to all measured signals in the two-dimensional scanning plane [42]. Figure 1 shows the conceptual diagram of SSE.…”

Section: Singular Value Selection Algorithm Based On Singular Entropy...mentioning

confidence: 98%

“…On the contrary, signals with spectral characteristics akin to white noise will have larger SE values. The SE is defined as follows [42].…”

Section: Singular Value Selection Algorithm Based On Singular Entropy...mentioning

confidence: 99%

“…For example, Yasuda et al used laser ablation of vibrated concrete and LDV to check the tunnel lining health and identify internal concrete defects based on the intrinsic frequency and damping ratio [37][38][39]. Sugimoto et al [40][41][42] proposed a spatial-spectral entropy-based defect imaging algorithm that uses the spatialentropy spectrum (SSE) to estimate the defect resonance frequency of the data collected via LDV, and displays the size and location of the defect based on the vibration modes at the defect resonance frequency.…”

Section: Introductionmentioning

confidence: 99%

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An Internal Defect Detection Algorithm for Concrete Blocks Based on Local Mean Decomposition-Singular Value Decomposition and Weighted Spatial-Spectral Entropy

et al. 2023

Entropy

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Within the scope of concrete internal defect detection via laser Doppler vibrometry (LDV), the acquired signals frequently suffer from low signal-to-noise ratios (SNR) due to the heterogeneity of the concrete’s material properties and its rough surface structure. Consequently, these factors make the defect signal characteristics challenging to discern precisely. In response to this challenge, we propose an internal defect detection algorithm that incorporates local mean decomposition-singular value decomposition (LMD-SVD) and weighted spatial-spectral entropy (WSSE). Initially, the LDV vibration signal undergoes denoising via LMD and the SVD algorithms to reduce noise interference. Subsequently, the distribution of each frequency in the scan plane is analyzed utilizing the WSSE algorithm. Since the vibrational energy of the frequencies caused by the defect resonance is concentrated in the defect region, its energy distribution in the scan plane is non-uniform, resulting in a significant difference between the defect resonance frequencies’ SSE values and the other frequencies’ SSE values. This feature is used to estimate the resonant frequencies of internal defects. Ultimately, the defects are characterized based on the modal vibration patterns of the defect resonant frequencies. Tests were performed on two concrete blocks with simulated cavity defects, using an ultrasonic transducer as the excitation device to generate ultrasonic vibrations directly from the back of the blocks and applying an LDV as the acquisition device to collect vibration signals from their front sides. The results demonstrate the algorithm’s capacity to effectively pinpoint the information on the location and shape of shallow defects within the concrete, underscoring its practical significance for concrete internal defect detection in practical engineering scenarios.

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“…(STNB : Single ToNe Burst)波，時間周波数ゲート (13) ，振動エネルギー比 (14) 及びスペクトルエントロピーを用いた欠陥検出アルゴリズム (15) 及び高速計測を可能にするマルチトーンバースト(MTNB : Multi ToNe Burst)波 (16) などが考案された．実際に，トンネル，高架橋 (17) 及び地下空洞 (18) といった実コンクリート構造物における探査実験，タイル外壁供試体を用いた飛行中のドローンからの音波照射加振実験 (19), (20) などが実施されている．更に面的な振動速度分布を利用して内部欠陥に起因する共振現象と LDV 自体の共振現象を識別することができる空間スペクトルエントロピー (SSE : Spatial Spectral Entropy) (21), (22) や送信した信号により加振されたかどうか判定する共振判定処理 (23) 波で一つの周波数を使用する STNB 波 (13) ，1 回の送波で複数の周波数を使用する MTNB 波 (16) 15), (17) 図 4 共振判定処理における受信波形分割の概念図 (23) 図 5 NCAI 法の基本セットアップ図 (26) テスト結果(検査者全員の結果が一致しない場合は△) ，下段は NCAI 法による欠陥中心部における共振周波数の探査結果例である(模擬欠陥の共振ピークは確認できるものの，図 (15), (17) 図 13 N2U-Bridge における実験結果例 (15), (17) 163 図 14 高架橋での実験セットアップ図 (17) 図 15 高架橋床版のスキャンエリア図 (17) 図 16 NCAI 法による振動エネルギー比分布 (17) 図 17 叩き点検による検証実験 (17) 図タイル外壁供試体の模擬欠陥配置図 (19), (20) 図 20 タイル外壁点検実験のセットアップ図 (20) 図振動エネルギー比分布 (20) 5.5 民間マンションでの外壁点検実施例…”

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Non-Destructive Inspection of Concrete Structures by Noncontact Acoustic Inspection Technology Using Acoustic Irradiation Induced Vibration

Sugimoto

2023

IEICE Fundamentals Review

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Tapping inspection is generally used for the inspection of concrete structures, but as the number of skilled workers decreases, the efficiency of inspection work must be improved. Various methods have been developed, but only a few of them have been linked to the improvement of work efficiency, because they must be used close to the inspection surface. Therefore, a noncontact acoustic inspection technique using acoustic-irradiation-induced vibration and a laser Doppler vibrometer has been developed, which enables a noncontact inspection similar to a hitting inspection from a long distance. Since verification experiments on specimens and actual structures have already been conducted and the effectiveness of this technique has been clarified, the latest trends will be introduced.

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Detection of Internal Defects in Concrete and Evaluation of a Healthy Part of Concrete by Noncontact Acoustic Inspection Using Normalized Spectral Entropy and Normalized SSE

Cited by 7 publications

References 14 publications

Study on movement measurement for internal defects in concrete structures by noncontact acoustic inspection method using correlation processing

Study on movement measurement for internal defects in concrete structures by noncontact acoustic inspection method using correlation processing

An Internal Defect Detection Algorithm for Concrete Blocks Based on Local Mean Decomposition-Singular Value Decomposition and Weighted Spatial-Spectral Entropy

Non-Destructive Inspection of Concrete Structures by Noncontact Acoustic Inspection Technology Using Acoustic Irradiation Induced Vibration

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