Abstract

The paper investigates a novel sparse false data injection attack method in a smart grid (SG) with incomplete power network information. Most existing methods usually require the known complete power network information of SG. The main objective of this paper is to propose an effective sparse false data injection attack strategy under a more practical situation where attackers can only have incomplete power network information and limited attack resources to access the measurements. Firstly, according to the obtained measurements and power network information, some incomplete power network information is compensated by using the power flow equation approach. Then, the fault tolerance range of bad data detection (BDD) for the attack residual increment is estimated by calculating the detection threshold of the residual L2-norm test. Finally, an effective sparse imperfect strategy is proposed by converting the choice of measurements into a subset selection problem, which is solved by the locally regularized fast recursive (LRFR) algorithm to effectively improve the sparsity of attack vectors. Simulation results on an IEEE 30-bus system and a real distribution network system confirm the feasibility and effectiveness of the proposed new attack construction method.

Highlights

  • The traditional power systems operate in an isolated physical environment, where their security mainly focuses on the random failures of the system components [1]

  • This paper considers that the power system is static and the measurement equation is linear, where the weighted least square (WLS) method is employed to estimate the system state

  • According to the obtained measurements and network information, some incomplete network information is compensated by the power flow equation

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Summary

Introduction

The traditional power systems operate in an isolated physical environment, where their security mainly focuses on the random failures of the system components [1]. SG has been found vulnerable to cyberattacks as a large number of smart devices are deployed over unencrypted cyber communication environments [11,12,13,14,15]. During the Christmas of 2015, a synchronized and coordinated cyberattack compromised three Ukrainian regional electric power distribution companies, resulting in power outages and further affecting approximately 225,000 customers for several hours [18]. Cyber security can be studied from two perspectives to improve the system reliability. This paper is aimed at finding the vulnerability of the power system with incomplete power grid information by developing an effective sparse false data injection attack strategy from the attackers’ perspective

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