Your search keyword '"Zhou, Hanmei"' showing total 2 results

1. Dissipative Discrete PID Load Frequency Control for Restructured Wind Power Systems via Non-Fragile Design Approach.

Author

Zhou, Hanmei, Zhong, Qishui, Hu, Shaoyu, Yang, Jin, Shi, Kaibo, and Zhong, Shouming

Subjects

*WIND power, *INTERCONNECTED power systems, *STABILITY criterion

Abstract

This article proposes a discrete proportional-integral-derivative (PID) load frequency control (LFC) scheme to investigate the dissipative analysis issue of restructured wind power systems via a non-fragile design approach. Firstly, by taking the different power-sharing rates of governors into full consideration, a unified model is constructed for interconnected power systems containing multiple governors. Secondly, unlike existing LFC schemes, a non-fragile discrete PID control scheme is designed, which has the performance of tolerating control gain fluctuation and relieving the huge computational burden. Further, by constructing a discrete-type Lyapunov–Krasovskii functional, improved stability criteria with a strict dissipative performance index are established. Finally, numerical examples are presented to demonstrate the effectiveness of the proposed control method. [ABSTRACT FROM AUTHOR]

Published

2023

2. Adaptive event-triggered PID load frequency control for multi-area interconnected wind power systems under aperiodic DoS attacks.

Author

Zhong, Qishui, Hu, Shaoyu, Yan, Lei, Zhou, Hanmei, Yang, Jin, Shi, Kaibo, and Zhong, Shouming

Subjects

*INTERCONNECTED power systems, *WIND power, *DENIAL of service attacks, *INDUCTION generators, *DATA packeting, *EXPONENTIAL stability, *TELECOMMUNICATION systems, *STABILITY criterion

Abstract

In this article, an adaptive event-triggered proportional–integral–derivative (PID) load frequency control (LFC) strategy is designed for multi-area interconnected wind power systems under aperiodic denial-of-service (DoS) attacks. First, to relieve the frequency fluctuation caused by wind power integration, a dynamic model including the doubly-fed induction generator is established for multi-area interconnected wind power systems. Second, to avoid superfluous occupation of network communication bandwidth, an adaptive event-triggered mechanism with memory property is proposed under aperiodic DoS attacks. Then, with the aid of intermittent control method, a memory-based PID LFC strategy is achieved to stabilize the frequency of wind power systems. Third, by constructing a switched Lyapunov-Krasovskii functional, two exponential stability criteria meeting the H ∞ norm bound are derived. Finally, simulation examples are provided to verify the effectiveness of the presented control strategy. • Load frequency control for wind power system with a doubly-fed induction generator. • An adaptive event-triggered scheme with memory property extracts data packets. • Aperiodic denial-of-service attacks maliciously disrupt data transmission. • A memory-based proportional–integral–differential controller generate control signal. [ABSTRACT FROM AUTHOR]

Published

2024