Abnormal drone noise detection system based on the microphone array and self-supervised learning
Abnormal drone noise detection system based on the microphone array and self-supervised learning
The drone noise mainly comes from its rotating blades, providing plentiful information of the status of the drone. In the production line, the abnormal sound detection system has the advantages of no contact and simple deployment and can help to locate the fault products at relatively low costs. Therefore, this paper develops an abnormal drone noise detection system based on the microphone array and self-supervised learning. The microphone array is a part of the data acquisition module to pick up the drone noise. There are eight microphones in the array, forming four differential microphone pairs. Each of them is pointing to a blade of the drone. A four-channel noise sample is recorded and then analyzed. It is worth noting that drone noise samples are extremely unbalanced, because abnormal samples are difficult to encounter. Hence, a self-supervised learning strategy is adopted by creating auxiliary classification tasks to fine tune representations of the normal drone noise samples. With the consideration of low-complexity, the trained neural network models can be finally deployed even on a Raspberry Pi system with no graphic cards.
5754-5760
Institute of Noise Control Engineering of the USA
Wu, Hao
b89dc189-081d-4135-928f-a1283d2055bb
Jiang, Huitian
7136c22d-7410-4630-94dd-74a8712d3999
Wen, Haifeng
53884694-3c13-40dc-a9ab-8eceaa798a63
Shi, Chuang
c46f72bd-54c7-45ee-ac5d-285691fccf81
Wu, Hao
b89dc189-081d-4135-928f-a1283d2055bb
Jiang, Huitian
7136c22d-7410-4630-94dd-74a8712d3999
Wen, Haifeng
53884694-3c13-40dc-a9ab-8eceaa798a63
Shi, Chuang
c46f72bd-54c7-45ee-ac5d-285691fccf81
Wu, Hao, Jiang, Huitian, Wen, Haifeng and Shi, Chuang
(2021)
Abnormal drone noise detection system based on the microphone array and self-supervised learning.
In INTER-NOISE and NOISE-CON Congress and Conference Proceedings: InterNoise21, Washington, D.C., USA, pages 4919-5918.
Institute of Noise Control Engineering of the USA.
.
(doi:10.3397/IN-2021-3258).
Record type:
Conference or Workshop Item
(Paper)
Abstract
The drone noise mainly comes from its rotating blades, providing plentiful information of the status of the drone. In the production line, the abnormal sound detection system has the advantages of no contact and simple deployment and can help to locate the fault products at relatively low costs. Therefore, this paper develops an abnormal drone noise detection system based on the microphone array and self-supervised learning. The microphone array is a part of the data acquisition module to pick up the drone noise. There are eight microphones in the array, forming four differential microphone pairs. Each of them is pointing to a blade of the drone. A four-channel noise sample is recorded and then analyzed. It is worth noting that drone noise samples are extremely unbalanced, because abnormal samples are difficult to encounter. Hence, a self-supervised learning strategy is adopted by creating auxiliary classification tasks to fine tune representations of the normal drone noise samples. With the consideration of low-complexity, the trained neural network models can be finally deployed even on a Raspberry Pi system with no graphic cards.
Text
Noise21_ASD_Submission
- Accepted Manuscript
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e-pub ahead of print date: 1 August 2021
Venue - Dates:
Internoise 2021, , Washington, D.C., United States, 2021-08-01 - 2021-08-05
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Local EPrints ID: 484238
URI: http://eprints.soton.ac.uk/id/eprint/484238
PURE UUID: 54d37930-76f7-4378-acb1-b93c8a495874
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Date deposited: 13 Nov 2023 18:43
Last modified: 18 Mar 2024 04:13
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Contributors
Author:
Hao Wu
Author:
Huitian Jiang
Author:
Haifeng Wen
Author:
Chuang Shi
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