Multi Label Deep Learning classification approach for False Data Injection Attacks in Smart Grid

doi:10.3837/tiis.2021.06.013

Cited by 7 publications

(4 citation statements)

References 35 publications

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“…An extensive survey of possible data-driven algorithms that can be used in power system applications is presented in [74]. For instance, a convolutional neural network is presented in [75], which shows high detection accuracy against false data injection attacks. A nonlinear autoregressive exogenous neural network is presented in [76], which presents small running times and high bad data detection accuracy.…”

Section: Bad Data Detection Identification and Substitution Algorithmmentioning

confidence: 99%

Inertia Estimation of a Power System Area Based on Iterative Equation Error System Identification

Gotti,

Bizzarri,

Brambilla

et al. 2024

IEEE Trans. Power Syst.

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por el privilegio de cursar mis estudios doctorales con una financiación, a pesar de la incertidumbre de los últimos tiempos. En este sentido, quiero expresar un agradecimiento particular al profesor Santiago Arnaltes por estar involucrado en el proceso de búsqueda de la beca.Quisiera también expresar mi gratitud a mis directores de tesis por haberme permitido ingresar al programa y darme la oportunidad de realizar esta experiencia enriquecedora. Los consejos recibidos en estos años sobre la redacción y la estructura de los artículos han sido muy valiosos.Considero necesario reconocer a los profesores Juan Carlos Burgos y Mónica Chinchilla el interés, la ayuda y los consejos recibidos durante la preparación de las prácticas de sus asignaturas.Un ringraziamento doveroso va al gruppo del Politecnico di Milano che mi ha ospitato durante i 3 mesi del periodo di ricerca all'"estero". In particolare, vorrei esprimere la mia gratitudine a Federico Bizzarri e ad Angelo Brambilla per i preziosi consigli elargiti durante le riunioni e le videochiamate; grazie per mostrarmi dove fissare l'asticella. Sulla falsariga di una frase che scrissi circa nove anni fa in una circostanza simile a questa, ritengo di dover ringraziare anche il mio paese, l'Italia, che, seppur non priva di difetti, mi ha dato l'opportunità di ricevere una formazione di primo livello. Indipendentemente da quello che il futuro ha in serbo per me, le sarò sempre grato.Finalmente, quiero dar las gracias a Lourdes, por su apoyo incondicional, por ayudarme a tomar conciencia de mí mismo, por poner la vida en perspectiva y, simplemente, por ser ella.

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Section: Bad Data Detection Identification and Substitution Algorithmmentioning

confidence: 99%

Inertia Estimation of a Power System Area Based on Iterative Equation Error System Identification

Gotti,

Bizzarri,

Brambilla

et al. 2024

IEEE Trans. Power Syst.

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show abstract

“…An extensive survey of possible datadriven algorithms that can be used in power system applications is presented in [42]. For instance, a convolutional neural network is presented in [43], which shows high detection accuracy against false data injection attacks. A nonlinear autoregressive exogenous neural network is presented in [44], which presents small running times and high bad data detection accuracy.…”

Section: Bad Data Detection Identification and Substitution Algorithmmentioning

confidence: 99%

A Fast Data-Driven Topology Identification Method for Dynamic State Estimation Applications

2022

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“…The integration of information with communication technologies in power grid operations has led to the evolution of smart grid architecture, enabling it to regulate generation and consumption of electricity [1]. IoT has changed the face of traditional power systems-the new structure incorporated bigger databases, new matrices and innovations, whereas the others were still facing security challenges [2]. It is not a fiction as nowadays SG might also be used in conjunction with an existing power grid in many utility companies.…”

Section: Introductionmentioning

confidence: 99%

SDAFA: Secure Data Aggregation in Fog-Assisted Smart Grid Environment

et al. 2023

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The tremendous growth of about 8 billion devices connected to each other in various domains of Internet of Things (IoT)-based applications have attracted researchers from both industry and academia. IoT is a network of several devices connected with each other to provide sensing capabilities, particularly in smart grid (SG) environment. Various challenges such as the efficient handling of massive IoT data can be addressed with advances in fog computing. The secure data aggregation challenge is one such issue in IoT-based smart grid systems, which include millions of smart meters. Typical SG-based data aggregation approaches have high computation and communication costs, however, many efforts have been made to overcome these limitations while leveraging fog computing but no satisfactory results have been obtained. Moreover, existing solutions also suffer from high storage requirements. The traditional data aggregation schemes such as GCEDA (Grouping of Clusters for Efficient Data Aggregation) and SPPDA (Secure Privacy-Preserving Data Aggregation) also suffer from a few shortcomings. SPPDA follows a mixed aggregation architecture that includes trees and clusters which can lead to some performance complexities and is not energy-efficient, whereas GCEDA does not support heterogeneity. To overcome these problems, this research provides a fog-assisted strategy for secure and efficient data aggregation in smart grid. The concept of smart grid is implemented in fog environment, which was not the case in previous schemes. We used communication between smart meters (SMs) and fog nodes (FNs) to transmit confidential data in compressed form towards FN. The FN further aggregates the received data which can then be updated in cloud repositories later. We presented two algorithms—data aggregation and data extraction at FN and cloud, respectively, to achieve secure communication. The performance of the proposed strategy has been evaluated against existing data aggregation techniques GCEDA and SPPDA for various performance parameters such as storage, communication cost and transmission cost. The proposed scheme overcomes the limitation of heterogeneity and mixed aggregation which was faced in GCEDA and SPPDA and the results revealed outstanding performance in comparison with both, so the proposed solution can be used in a smart grid environment for efficient and secure data transmission.

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Multi Label Deep Learning classification approach for False Data Injection Attacks in Smart Grid

Cited by 7 publications

References 35 publications

Inertia Estimation of a Power System Area Based on Iterative Equation Error System Identification

Inertia Estimation of a Power System Area Based on Iterative Equation Error System Identification

A Fast Data-Driven Topology Identification Method for Dynamic State Estimation Applications

SDAFA: Secure Data Aggregation in Fog-Assisted Smart Grid Environment

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