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Volume 17, Issue 2
7 May 2026
International Journal of Structural Integrity Cover Image for Volume 17, Issue 2
Article Contents
Research Article| October 31 2025

Development of a method for estimating the time-of-arrival of acoustic emission signals for structural health monitoring Available to Purchase

Claudia Barile
ORCID logo 0000-0002-8682-6078
;
Claudia Barile
Politecnico di Bari
, Bari,
Italy
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Caterina Casavola;
Caterina Casavola
Politecnico di Bari
, Bari,
Italy
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Giovanni Pappalettera
ORCID logo 0000-0001-6257-5721
;
Giovanni Pappalettera
Politecnico di Bari
, Bari,
Italy
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Vimalathithan Paramsamy Kannan
ORCID logo 0000-0002-9685-1242
Vimalathithan Paramsamy Kannan
Politecnico di Bari
, Bari,
Italy
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Author & Article Information
Vimalathithan Paramsamy Kannan can be contacted at: pk.vimalathithan@poliba.it
Publisher: Emerald Publishing
Received: June 01 2024
Revision Received: December 11 2024
Accepted: September 23 2025
Online ISSN: 1757-9872
Print ISSN: 1757-9864
Funding
Funding Group:
  • Award Group:
    • Funder(s):
       National Recovery and Resilience Plan (PNRR), Mission 4 Component C2 Investment 1.1 - Call for Proposals for the development of “Projects of Significant National Interest” (PRIN) - 2 February 2022 - D.D. No. 104/2022 PRIN 2022. 2022JFMPSC - INnovative damage MOnitoring Of Self-HEAling Composites by acoustic emissions in civil and aerospace Applications – IN MOOSHEAC - Politecnico di BARI
    • Award Id(s):
      D53D23003600006
  • Award Group:
    • Funder(s):
       National Recovery and Resilience Plan (PNRR), Mission 4 Component 2 Investment 1.4 - Call for tender No. 3138 of December 16, 2021 of Italian Ministry of University and Research funded by the European Union – NextGenerationEU. : CNMS denominato MOST, Concession Decree No. 1033 of June 17, 2022 adopted by the Italian Ministry of University and Research, Spoke 14 “Hydrogen and New Fuels”
    • Award Id(s):
      D93C22000410001
  • Funding Statement(s):
     One of the authors (Vimalathithan Paramsamy Kannan) acknowledges the support of the following: Funder: Project funded under the National Recovery and Resilience Plan (PNRR), Mission 4 Component 2 Investment 1.4 - Call for tender No. 3138 of December 16, 2021 of Italian Ministry of University and Research funded by the European Union – NextGenerationEU Award Number: CNMS denominato MOST, Concession Decree No. 1033 of June 17, 2022 adopted by the Italian Ministry of University and Research, CUP: D93C22000410001, Spoke 14 “Hydrogen and New Fuels”.
© Emerald Publishing Limited
2025
Emerald Publishing Limited
Licensed re-use rights only
International Journal of Structural Integrity (2026) 17 (2): 274–292.
https://doi.org/10.1108/IJSI-06-2024-0075
Article history
Received:
June 01 2024
Revision Received:
December 11 2024
Accepted:
September 23 2025
Purpose

This study aims to develop a novel method for estimating the time-of-arrival (ToA) of acoustic emission (AE) signals generated by materials under loading. To use the estimated ToA to analyse damage evolution in the material.

Design/methodology/approach

The ToA estimation method is developed based on the Akaike information criterion (AIC) with an addition of entropy in the maximum likelihood estimation. Carbon fibre reinforced polymer (CFRP) specimens in short beam shear (SBS) configuration are tested to generate the AE signal required for the study. The specimen is subjected to a three-point bending load and its damage evolution is analysed by the estimated ToA, peak amplitude and peak frequency of the AE signals.

Findings

The proposed ToA estimation method works efficiently even for AE signals with a large number of reverberations. The damage evolution in the SBS specimen is mainly due to matrix cracking, delamination in the inner plies and interlaminar crack growth. AE signals with different levels of peak amplitude, peak frequency and varying ToAs are able to identify these different damage sources.

Originality/value

The proposed ToA estimation method performs better than the traditional methods based on AIC. Its application can be extended to AE signals generated from large structures.

Keywords:
Acoustic emission, Time-of-arrival, CFRP composites, Damage evolution, Damage identification
© Emerald Publishing Limited
2025
Emerald Publishing Limited
Licensed re-use rights only
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