Detection of an Approximately Periodic Sequence of Pulses for Acoustic Condition Monitoring

Jonas Lindenberger; Christof Pichler; Stefan Schuster; Oliver Lang; Markus Neumayer; Alexander Haberl; Clemens Staudinger; Bernhard Lehner; Christoph Feilmayr; Hannes Wegleiter; Mario Huemer

Detection of an Approximately Periodic Sequence of Pulses for Acoustic Condition Monitoring

Jonas Lindenberger, Christof Pichler, Stefan Schuster, Oliver Lang, Markus Neumayer, Alexander Haberl, Clemens Staudinger, Bernhard Lehner, Christoph Feilmayr, Hannes Wegleiter, Mario Huemer

Institute of Signal Processing

Research output: Chapter in Book/Report/Conference proceeding › Conference proceedings › peer-review

Abstract

Acoustic condition monitoring is a cost-effective approach to maintain proper machine operation. Defective machines often generate knocking sounds, e.g., due to loose metal parts, which can be modelled as an approximately periodic sequence of acoustic pulses. Based on a signal model for these sequential pulses, we derive a z-transform-based maximum a posteriori ratio test (MAPRT) detector that reliably detects such knocking noises. The proposed detector is tested with measurement data showing that it is more robust than the commonly used generalized likelihood ratio test (GLRT) pitch detector. Furthermore, the proposed MAPRT detector can be implemented efficiently using the chirp z-transform.

Original language	English
Title of host publication	Proceedings of the European Signal Processing Conference (EUSIPCO 2024)
Editors	IEEE
Pages	171--175
Number of pages	5
Publication status	Published - Aug 2024

Fields of science

202036 Sensor systems
202 Electrical Engineering, Electronics, Information Engineering
202022 Information technology
202037 Signal processing

JKU Focus areas

Digital Transformation

Cite this

@inproceedings{ef64fc16194048ab9fd18fa1fb84b59c,

title = "Detection of an Approximately Periodic Sequence of Pulses for Acoustic Condition Monitoring",

abstract = "Acoustic condition monitoring is a cost-effective approach to maintain proper machine operation. Defective machines often generate knocking sounds, e.g., due to loose metal parts, which can be modelled as an approximately periodic sequence of acoustic pulses. Based on a signal model for these sequential pulses, we derive a z-transform-based maximum a posteriori ratio test (MAPRT) detector that reliably detects such knocking noises. The proposed detector is tested with measurement data showing that it is more robust than the commonly used generalized likelihood ratio test (GLRT) pitch detector. Furthermore, the proposed MAPRT detector can be implemented efficiently using the chirp z-transform.",

author = "Jonas Lindenberger and Christof Pichler and Stefan Schuster and Oliver Lang and Markus Neumayer and Alexander Haberl and Clemens Staudinger and Bernhard Lehner and Christoph Feilmayr and Hannes Wegleiter and Mario Huemer",

year = "2024",

month = aug,

language = "English",

isbn = "978-9-4645-9361-7",

pages = "171----175",

editor = "IEEE",

booktitle = "Proceedings of the European Signal Processing Conference (EUSIPCO 2024)",

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TY - GEN

T1 - Detection of an Approximately Periodic Sequence of Pulses for Acoustic Condition Monitoring

AU - Lindenberger, Jonas

AU - Pichler, Christof

AU - Schuster, Stefan

AU - Lang, Oliver

AU - Neumayer, Markus

AU - Haberl, Alexander

AU - Staudinger, Clemens

AU - Lehner, Bernhard

AU - Feilmayr, Christoph

AU - Wegleiter, Hannes

AU - Huemer, Mario

PY - 2024/8

Y1 - 2024/8

N2 - Acoustic condition monitoring is a cost-effective approach to maintain proper machine operation. Defective machines often generate knocking sounds, e.g., due to loose metal parts, which can be modelled as an approximately periodic sequence of acoustic pulses. Based on a signal model for these sequential pulses, we derive a z-transform-based maximum a posteriori ratio test (MAPRT) detector that reliably detects such knocking noises. The proposed detector is tested with measurement data showing that it is more robust than the commonly used generalized likelihood ratio test (GLRT) pitch detector. Furthermore, the proposed MAPRT detector can be implemented efficiently using the chirp z-transform.

AB - Acoustic condition monitoring is a cost-effective approach to maintain proper machine operation. Defective machines often generate knocking sounds, e.g., due to loose metal parts, which can be modelled as an approximately periodic sequence of acoustic pulses. Based on a signal model for these sequential pulses, we derive a z-transform-based maximum a posteriori ratio test (MAPRT) detector that reliably detects such knocking noises. The proposed detector is tested with measurement data showing that it is more robust than the commonly used generalized likelihood ratio test (GLRT) pitch detector. Furthermore, the proposed MAPRT detector can be implemented efficiently using the chirp z-transform.

UR - https://eusipcolyon.sciencesconf.org/

M3 - Conference proceedings

SN - 978-9-4645-9361-7

SP - 171

EP - 175

BT - Proceedings of the European Signal Processing Conference (EUSIPCO 2024)

A2 - IEEE, null

ER -

Detection of an Approximately Periodic Sequence of Pulses for Acoustic Condition Monitoring

Abstract

Fields of science

JKU Focus areas

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Cite this