An anomaly detection method for gas turbines in power plants using conditional variational autoencoder optimized with self-attention

An innovative anomaly detection (AD) framework designed for gas turbines (GTs) in power plants working under variable operating conditions (OCs) was proposed based on conditional variational autoencoder (CVAE) optimized with self-attention (SA) in this paper. Three key factors contribute to the mode...

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Vydané v:Reliability engineering & system safety Ročník 267; s. 111894
Hlavní autori: Chen, Dongchao, Li, Xiuxia, Xu, Jingquan, Wang, Zhong
Médium: Journal Article
Jazyk:English
Vydavateľské údaje: Elsevier Ltd 01.03.2026
Predmet:
Anomaly detection
Conditional variational autoencoder
Gas turbine
Self-attention
Variable operating conditions
COAT
HI
RCAT
GTP
TET
RDCT
CIAT
Self-attention
LS
DL
LV
LRP
FNR
AMFormer
KDE
OCSVM
EGDP
HI-FM PCC
DS
Variable operating conditions
MD
LSD
ML
Pr
FWT
AD
EH
AE
DCD
IS
EP
LOP
Anomaly detection
LPT_flow_mod
PCA
ET
RA
LOT
MAE
AS
LPT_eff_mod
FGMMP
FGTFCVP
FGHOT
ANI
SIS
HPT_eff_mod
IGVCSO
CBVP
BPT
FM
CVAE
AUROC
FPR
SA
SVR
Conditional variational autoencoder
R
Re
OC
PHM
MFPLCSO
SA-CVAE
GD
SP
MSE
Acc
CC
CSP
OS
COP
GL
RUL
CPFM
CP
GT
LFCPF
TE
EGT
CPD
CPF
IGV
IGVP
Gas turbine
GCV
VAE
TEP
TIT
HRSG
ISSN:0951-8320
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Popis
Shrnutí:An innovative anomaly detection (AD) framework designed for gas turbines (GTs) in power plants working under variable operating conditions (OCs) was proposed based on conditional variational autoencoder (CVAE) optimized with self-attention (SA) in this paper. Three key factors contribute to the model's superior performance in AD. First, the marginal distributions (MDs) of parameters were transformed into conditional probability distributions (CPDs) by incorporating OC variables as conditional inputs in the variational autoencoder (VAE) model, and decoupled modeling of equipment states and external OCs is achieved. Second, by embedding SA modules, the method dynamically adjusts weight allocation of the parameters to capture complex dependencies among them, which can enhance the capability of the model to represent intricate coupling relationships in multi-dimensional parameters. Third, the logarithmic reconstruction probability (LRP), derived from the probabilistic output of SA-CVAE, serves as a unified health indicator (HI) to evaluate the health condition of the GT. The indicator not only accounts for the discrepancy between the reconstructed and original inputs but also incorporates the influence of latent variable (LV) variance on the reconstruction results. Experiments were carried out on one synthetic, one public, and two real-world datasets, with SA-CVAE compared against six leading AD methods. The results demonstrate that under varying OCs, SA-CVAE exhibits superior performance in AD tasks, achieving leading or competitive results across key evaluation metrics.
ISSN:0951-8320
DOI:10.1016/j.ress.2025.111894