Imatge de la portada

Hybrid Control Strategy for DC Microgrid Against False Data Injection Attacks and Sensor Faults Based on Lagrange Extrapolation and Voltage Observer

Guardat en:
Publicat a:Electronics vol. 14, no. 6 (2025), p. 1087
Autor principal: Seong-Bae, Jo
Altres autors: Dat Thanh Tran, Nguyen, Hieu Xuan, Kim, Myungbok, Kim, Kyeong-Hwa
Publicat:
MDPI AG
Matèries:
Decentralized control
Accuracy
Failure
System reliability
Distributed generation
Electric potential
Communication
Voltage
Failure detection
Sensors
Renewable resources
Effectiveness
Predictive control
Algorithms
Control systems
Extrapolation
Systems stability
Alternative energy sources
Hybrid control
Energy consumption
Accés en línia:Citation/Abstract
Full Text + Graphics
Full Text - PDF
Etiquetes: Afegir etiqueta
Sense etiquetes, Sigues el primer a etiquetar aquest registre!
Resum:In this study, to enhance the system reliability under false data injection (FDI) attacks and DC-link voltage (DCLV) sensor failures, a hybrid control strategy for a DC microgrid (DCMG) based on the Lagrange extrapolation and voltage observer is proposed. Under normal conditions without FDI attacks or DCLV sensor failures, the DCMG system works in a distributed control scheme. To enhance the reliability of the system under the DCLV sensor failure or FDI attack, the DCMG system utilizes a hybrid control strategy that combines distributed control with decentralized control. The hybrid control strategy is achieved by the proposed detection algorithms for FDI attacks and DCLV sensor failures. The detection of FDI attacks is accomplished by comparing the predicted secondary controller output based on the Lagrange extrapolation with the actual one. When a power agent detects an FDI attack, its control mode is switched to decentralized control by using the proposed hybrid control strategy. The DCLV sensor failure detection algorithm to enhance system reliability against DCLV sensor failures is achieved by comparing the estimated DCLV with the measured one from the voltage observer. Upon detecting a DCLV sensor failure, the operation of the power agent is switched to the current control mode to sustain the system operation even under DCLV sensor failures. The proposed detection algorithms are simple, effective, and precise, operating without mutual interference that deteriorates the detection accuracy. Simulation and experiments are carried out under various uncertain test conditions to validate the reliability and effectiveness of the proposed control strategy.
ISSN:2079-9292
DOI:10.3390/electronics14061087
Font:Advanced Technologies & Aerospace Database