VampNet-based BTT vibration reconstruction
VampNet-based BTT vibration reconstruction
Blade tip-timing (BTT) vibration measurement is seriously under-sampled due to few BTT probes, so it often needs to reconstruct true blade vibration characteristics. In practice, the characteristic of sparsity makes compressed sensing be useful for under-sampled BTT vibration reconstruction. Most existing algorithms still depend on prior sparse information. In recent years, deep learning methods have been investigated to deal with compressed sensing (CS) without prior information. However, traditional deep neural network architectures need many layers for accuracy, leading to more complexity. In order to cope with it, iterative reconstruction algorithms have been recently studied to modify traditional neural-network architectures. Thus, this paper proposes a VampNet-based BTT vibration reconstruction method by using the approximate message passing algorithm. Firstly, the angular-domain CS model of BTT vibration measurement is built. Based on it, the VampNet model of BTT vibration reconstruction is derived. Next, Matlab/Simulink simulations are done to generate BTT samples under variable speeds and then validate the reconstruction accuracy. The simulation results demonstrate that the proposed method can carry out BTT vibration reconstruction faster than existing deep learning methods.
VampNet, blade tip-timing, deep compressed sensing, multi-coset angular sampling
Chen, Zhongsheng
9893f775-a26a-4ebe-a4d9-d8224838fc9d
Liu, Chengwu
3d126008-a2a8-427f-a765-9c0ef84a42f0
Liao, Lianying
a851c96f-ff31-4712-a14a-e4d09a2adc0b
Xiong, Yeping
51be8714-186e-4d2f-8e03-f44c428a4a49
14 November 2022
Chen, Zhongsheng
9893f775-a26a-4ebe-a4d9-d8224838fc9d
Liu, Chengwu
3d126008-a2a8-427f-a765-9c0ef84a42f0
Liao, Lianying
a851c96f-ff31-4712-a14a-e4d09a2adc0b
Xiong, Yeping
51be8714-186e-4d2f-8e03-f44c428a4a49
Chen, Zhongsheng, Liu, Chengwu, Liao, Lianying and Xiong, Yeping
(2022)
VampNet-based BTT vibration reconstruction.
Guo, Wei and Li, Steven
(eds.)
In 2022 Global Reliability and Prognostics and Health Management Conference, PHM-Yantai 2022.
IEEE.
5 pp
.
(doi:10.1109/PHM-Yantai55411.2022.9941962).
Record type:
Conference or Workshop Item
(Paper)
Abstract
Blade tip-timing (BTT) vibration measurement is seriously under-sampled due to few BTT probes, so it often needs to reconstruct true blade vibration characteristics. In practice, the characteristic of sparsity makes compressed sensing be useful for under-sampled BTT vibration reconstruction. Most existing algorithms still depend on prior sparse information. In recent years, deep learning methods have been investigated to deal with compressed sensing (CS) without prior information. However, traditional deep neural network architectures need many layers for accuracy, leading to more complexity. In order to cope with it, iterative reconstruction algorithms have been recently studied to modify traditional neural-network architectures. Thus, this paper proposes a VampNet-based BTT vibration reconstruction method by using the approximate message passing algorithm. Firstly, the angular-domain CS model of BTT vibration measurement is built. Based on it, the VampNet model of BTT vibration reconstruction is derived. Next, Matlab/Simulink simulations are done to generate BTT samples under variable speeds and then validate the reconstruction accuracy. The simulation results demonstrate that the proposed method can carry out BTT vibration reconstruction faster than existing deep learning methods.
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Published date: 14 November 2022
Additional Information:
Funding Information:
This work was supported by the National Natural Science Foundation of China (grant No. 51975206), the Major Natural Science Foundation of the Higher Education Institutions of Jiangsu Province (22KJA460002) and Changzhou Science and Technology support plan (CE20225062).
Publisher Copyright:
© 2022 IEEE.
Venue - Dates:
IEEE Global Reliability & Prognostics and Health Management Conference (PHM-Yantai-2022), 13~16 October, 2022, Yantai, China, Yantai, China, Yantai, China, 2022-10-13 - 2022-10-16
Keywords:
VampNet, blade tip-timing, deep compressed sensing, multi-coset angular sampling
Identifiers
Local EPrints ID: 472366
URI: http://eprints.soton.ac.uk/id/eprint/472366
PURE UUID: 33aa1fe4-9c4d-4fee-a2c6-f56deb8b08ad
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Date deposited: 02 Dec 2022 17:40
Last modified: 17 Mar 2024 02:51
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Contributors
Author:
Zhongsheng Chen
Author:
Chengwu Liu
Author:
Lianying Liao
Editor:
Wei Guo
Editor:
Steven Li
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