Observer based decentralized load frequency control with false data injection attack for specified network quality and delay

被引:1
|
作者
Panda, Deepak Kumar [1 ,5 ]
Halder, Kaushik [2 ]
Das, Saptarshi [1 ,3 ]
Townley, Stuart [1 ,4 ]
机构
[1] Univ Exeter, Fac Environm Sci & Econ, Ctr Environm Math, Penryn Campus, Exeter TR10 9FE, Cornwall, England
[2] Indian Inst Technol Mandi, Sch Comp & Elect Engn, Mandi 175005, Himachal Prades, India
[3] Univ Exeter, Inst Data Sci & Artificial Intelligence, North Pk Rd, Exeter EX4 4QE, Devon, England
[4] Univ Exeter, Environm & Sustainabil Inst, Penryn Campus, Exeter TR10 9FE, Cornwall, England
[5] Cranfield Univ, Ctr Autonomous & Cyber Phys Syst, Cranfield MK43 0AL, Beds, England
来源
CHAOS SOLITONS & FRACTALS | 2024年 / 186卷
关键词
Grid frequency; Delay and packet drop; Load frequency control; Demand response; Electric vehicles; Stochastic renewable energy; SWITCHED LINEAR-SYSTEMS; RESPONSE DADR SYSTEM; DEMAND RESPONSE; ELECTRIC VEHICLES; OUTPUT-FEEDBACK; CONTROL STRATEGY; SMART-GRIDS; STABILITY; INTEGRATION; DESIGN;
D O I
10.1016/j.chaos.2024.115323
中图分类号
O1 [数学];
学科分类号
0701 ; 070101 ;
摘要
Load frequency control (LFC) aims to stabilize grid frequency fluctuations by countering load disturbances with generation-side controllers. In smart grids, demand response (DR) and electric vehicles (EV) offer alternatives to traditional frequency control, reducing reliance on costly generation-side controllers. These decentralized controls, interconnected through a shared communication medium, form a cyber-physical system, vulnerable to challenges like packet drops and false data injection (FDI) attacks. Additionally, consumer participation in DR introduces significant time delays. This paper derives stability conditions for LFC using a state feedback controller, estimating unobservable states with an observer while accounting for bounded disturbances and noise. This cyber-physical system, involving an observer, controller, and network, is modelled as an observerbased networked control system (NCS) using an asynchronous dynamical system (ADS) approach. The resulting switched system model is used to establish linear matrix inequality (LMI) criteria that ensure stability and determine observer and controller gains under specified packet drop rates, disturbances, and noise. The methodology is tested on various configurations, demonstrating that decentralized EV with LFC and DR improves system response, minimizes frequency fluctuations, and optimizes networked control bandwidth under given conditions.
引用
收藏
页数:30
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