Spectral large deviations of sparse random matrices

Ganguly, Shirshendu; Hiesmayr, Ella; Nam, Kyeongsik

doi:10.1112/jlms.12954

Journal of London Math Soc

2024

DOI: 10.1112/jlms.12954

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Spectral large deviations of sparse random matrices

Shirshendu Ganguly,

Ella Hiesmayr,

Kyeongsik Nam

Abstract: Eigenvalues of Wigner matrices has been a major topic of investigation. A particularly important subclass of such random matrices, useful in many applications, are what are known as sparse or diluted random matrices, where each entry in a Wigner matrix is multiplied by an independent Bernoulli random variable with mean . Alternatively, such a matrix can be viewed as the adjacency matrix of an Erdős–Rényi graph equipped with independent and identically distributed (i.i.d.) edge‐weights. An observable of partic… Show more

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Transparent Grid Visualization Surveillance and Fault Warning in High Density Distributed Power Access Areas

Zhou,

Xia,

et al. 2024

Applied Mathematics and Nonlinear Sciences

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Transparent grid, as an advanced form of “Internet + smart energy”, is of great value in supporting energy transformation and promoting the development of new power systems. Based on the grid connection requirements of high-density distributed power supply, this paper provides specific grid connection methods and trend calculations and explores the impact of grid connection on high-density distributed power supply. Subsequently, the technical framework and blueprint of the transparent grid are proposed, combined with the grid visualization system to monitor the grid state visually, and based on the random matrix single-loop theory and ARIMA algorithm to realize fault identification and early warning of the transparent grid. The analysis of the algorithm shows that the fault identification has good rapidity, feasibility, and practicability, and while ensuring that no fault alarm is issued in the case of normal disturbance of distributed power supply, it is able to issue fault alarms for all locations and types of short-circuit faults in the system and determine the fault moment within 0.1s. It is “fast”, “accurate,” and “stable” in the research and judgment of active distribution network faults, and it is more intuitive in the assignment of risk levels, and it can identify the categories and levels of faults and realize the following Visualization of early warning.

show abstract

Transparent Grid Visualization Surveillance and Fault Warning in High Density Distributed Power Access Areas

Zhou,

Xia,

et al. 2024

Applied Mathematics and Nonlinear Sciences

View full text Add to dashboard Cite

show abstract

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Spectral large deviations of sparse random matrices

Cited by 1 publication

References 33 publications

Transparent Grid Visualization Surveillance and Fault Warning in High Density Distributed Power Access Areas

Transparent Grid Visualization Surveillance and Fault Warning in High Density Distributed Power Access Areas

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