Jianzhe Liu scite author profile

Abstract-This paper studies stability analysis of DC microgrids with uncertain constant power loads (CPLs). It is well known that CPLs have negative impedance effects, which may cause instability in a DC microgrid. Existing works often study the stability around a given equilibrium based on some nominal values of CPLs. However, in real applications, the equilibrium of a DC microgrid depends on the loading condition that often changes over time. Different from many previous results, this paper develops a framework that can analyze the DC microgrid stability for a given range of CPLs. The problem is formulated as a robust stability problem of a polytopic uncertain linear system. By exploiting the structure of the problem, we derive a set of sufficient conditions that can guarantee robust stability. The conditions can be efficiently checked by solving a convex optimization problem whose complexity does not grow with the number of buses in the microgrid. The effectiveness and nonconservativeness of the proposed framework are demonstrated using simulation examples.

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Attack Identification and Correction for PMU GPS Spoofing in Unbalanced Distribution Systems

Zhang

Wang

Liu

2020

IEEE Trans. Smart Grid

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Due to the vulnerability of civilian global positioning system (GPS) signals, the accuracy of phasor measurement units (PMUs) can be greatly compromised by GPS spoofing attacks (GSAs), which introduce phase shifts into true phase angle measurements. Focusing on simultaneous GSAs for multiple PMU locations, this paper proposes a novel identification and correction algorithm in distribution systems. A sensitivity analysis of state estimation residuals on a single GSA phase angle is firstly implemented. An identification algorithm using a probing technique is proposed to determine the locations of spoofed PMUs and the ranges of GSA phase shifts. Based on the identification results, these GSA phase shifts are determined via an estimation algorithm that minimizes the mismatch between measurements and system states. Further, with the attacked PMU data corrected, the system states are recovered. Simulations in unbalanced IEEE 34-bus and 123-bus distribution systems demonstrates the efficiency and accuracy of the proposed method.Index Terms-State estimation, phasor measurement units, multiple GPS spoofing attacks, unbalanced distribution systems, attack identification and correction.

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Robust Stability Analysis of DC Microgrids With Constant Power Loads

Liu

Zhang

Rizzoni

2018

IEEE Trans. Power Syst.

138

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Resilience Analysis of DC Microgrids Under Denial of Service Threats

Liu

Wang

2019

IEEE Trans. Power Syst.

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Jianzhe Liu

Energy Management Problems Under Uncertainties for Grid-Connected Microgrids: A Chance Constrained Programming Approach

Robust stability analysis of DC microgrids with constant power loads

Attack Identification and Correction for PMU GPS Spoofing in Unbalanced Distribution Systems

Robust Stability Analysis of DC Microgrids With Constant Power Loads

Resilience Analysis of DC Microgrids Under Denial of Service Threats

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