← Volver a resultados
Ficha bibliográfica · Consulta y acceso
Artículo de revista

Observer aided robust control for cyber physical power grids with event triggered sliding mode controller

Asit Mohanty et al · Nature Portfolio · 2026

Acceso abierto disponible
Lectura rápida. Revisá los datos básicos del recurso y luego accedé al contenido desde el botón principal. En esta ficha solo se muestra la información necesaria para identificar la obra, citarla y abrirla.
Publicación seriada

3D scan-based classification of Chinese young female hand morphology

Esta publicación seriada contiene 688 contenidos relacionados.

Acceso al recurso

Entrá al contenido desde la opción principal o elegí otra fuente disponible.

Acceso principal

Acceso abierto disponible

Recurso identificado como acceso abierto, sin confirmar automáticamente si es texto completo directo.
Abrir recurso

Resumen

Descripción general del contenido del recurso.

Abstract The growing integration of renewable energy in both islanded and interconnected microgrids has rendered Cyber-physical stability and resilience a vital area of research. Conventional controllers, including PID and linear state-feedback, are susceptible to network-induced delays, denial-of-service (DoS) attacks, and false data injection, resulting in diminished reactive power support and the risk of voltage collapse. This paper proposes an Observer-Aided Robust Control Framework that integrates an Event-Triggered Sliding Mode Controller (ET-SMC) with improved anomaly detection to address these challenges. An Extended Kalman Filter (EKF) and Sliding Mode Observer (SMO) are formulated to estimate hidden state variables and identify malicious data alterations with high sensitivity, facilitating dependable control decisions in the presence of Cyber-attacks. The performance of anti-windup PID and baseline SMC is evaluated against ET-SMC with observer augmentation, demonstrating that the proposed strategy offers enhanced robustness, quicker transient response, and diminished chattering. A stability-guaranteed Event-triggered communication protocol is developed through Lyapunov analysis to reduce bandwidth consumption while maintaining voltage and reactive power regulation. The proposed framework is validated on a real-time OPAL-RT hardware-in-the-loop (HIL) microgrid testbed, demonstrating its effectiveness in scenarios involving renewable intermittency, communication noise, and coordinated Cyber-attacks. Comparative results demonstrate that ROC-based detection performance and time-domain simulations underscore the advantages of observer-aided ET-SMC in ensuring resilient, low-bandwidth, and real-time Cyber-physical control for next-generation power grids.

Cómo citar

Elegí el formato que necesitás y copiá la referencia al portapapeles.

APA 7

al, A. M. E. (2026). Observer aided robust control for cyber physical power grids with event triggered sliding mode controller. https://doi.org/10.1038/s41598-026-44084-5

MLA

al, Asit Mohanty et. "Observer aided robust control for cyber physical power grids with event triggered sliding mode controller." 2026. https://doi.org/10.1038/s41598-026-44084-5.

Chicago

al, Asit Mohanty et. 2026. "Observer aided robust control for cyber physical power grids with event triggered sliding mode controller.". https://doi.org/10.1038/s41598-026-44084-5.

Harvard

al, A. M. E. 2026, Observer aided robust control for cyber physical power grids with event triggered sliding mode controller, Nature Portfolio, available at: https://doi.org/10.1038/s41598-026-44084-5 [Accessed 29 Jun. 2026].

Compartir e imprimir

Guardá la ficha, copiá su enlace permanente o imprimila como PDF.

Exportar referencia

Si usás un gestor bibliográfico, podés exportar el registro en los formatos más comunes.

Detalles del recurso

Información bibliográfica útil para confirmar que se trata del material correcto.

Título
Observer aided robust control for cyber physical power grids with event triggered sliding mode controller
Autor / colaboradores
Asit Mohanty et al
Editorial
Nature Portfolio
Año de publicación
2026
ISSN
2045-2322
ISSN
2045-2322
Idioma
eng

Materias

Explorá otros recursos relacionados a partir de estas materias.

Copiado