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49 results on '"Pinceti, P."'

1. PMU Tracker: A Visualization Platform for Epicentric Event Propagation Analysis in the Power Grid

Author

Arunkumar, Anjana, Pinceti, Andrea, Sankar, Lalitha, and Bryan, Chris

Subjects
Computer Science - Human-Computer Interaction, Electrical Engineering and Systems Science - Systems and Control
Abstract

The electrical power grid is a critical infrastructure, with disruptions in transmission having severe repercussions on daily activities, across multiple sectors. To identify, prevent, and mitigate such events, power grids are being refurbished as 'smart' systems that include the widespread deployment of GPS-enabled phasor measurement units (PMUs). PMUs provide fast, precise, and time-synchronized measurements of voltage and current, enabling real-time wide-area monitoring and control. However, the potential benefits of PMUs, for analyzing grid events like abnormal power oscillations and load fluctuations, are hindered by the fact that these sensors produce large, concurrent volumes of noisy data. In this paper, we describe working with power grid engineers to investigate how this problem can be addressed from a visual analytics perspective. As a result, we have developed PMU Tracker, an event localization tool that supports power grid operators in visually analyzing and identifying power grid events and tracking their propagation through the power grid's network. As a part of the PMU Tracker interface, we develop a novel visualization technique which we term an epicentric cluster dendrogram, which allows operators to analyze the effects of an event as it propagates outwards from a source location. We robustly validate PMU Tracker with: (1) a usage scenario demonstrating how PMU Tracker can be used to analyze anomalous grid events, and (2) case studies with power grid operators using a real-world interconnection dataset. Our results indicate that PMU Tracker effectively supports the analysis of power grid events; we also demonstrate and discuss how PMU Tracker's visual analytics approach can be generalized to other domains composed of time-varying networks with epicentric event characteristics., Comment: 10 pages, 5 figures, IEEE VIS 2022 Paper to appear in IEEE TVCG; conference encourages arXiv submission for accessibility

Published
2022

2. Generation of Synthetic Multi-Resolution Time Series Load Data

Author

Pinceti, Andrea, Sankar, Lalitha, and Kosut, Oliver

Subjects
Electrical Engineering and Systems Science - Systems and Control
Abstract

The availability of large datasets is crucial for the development of new power system applications and tools; unfortunately, very few are publicly and freely available. We designed an end-to-end generative framework for the creation of synthetic bus-level time-series load data for transmission networks. The model is trained on a real dataset of over 70 Terabytes of synchrophasor measurements spanning multiple years. Leveraging a combination of principal component analysis and conditional generative adversarial network models, the scheme we developed allows for the generation of data at varying sampling rates (up to a maximum of 30 samples per second) and ranging in length from seconds to years. The generative models are tested extensively to verify that they correctly capture the diverse characteristics of real loads. Finally, we develop an open-source tool called LoadGAN which gives researchers access to the fully trained generative models via a graphical interface.

Published
2021

3. Synthetic Time-Series Load Data via Conditional Generative Adversarial Networks

Author

Pinceti, Andrea, Sankar, Lalitha, and Kosut, Oliver

Subjects
Electrical Engineering and Systems Science - Systems and Control
Abstract

A framework for the generation of synthetic time-series transmission-level load data is presented. Conditional generative adversarial networks are used to learn the patterns of a real dataset of hourly-sampled week-long load profiles and generate unique synthetic profiles on demand, based on the season and type of load required. Extensive testing of the generative model is performed to verify that the synthetic data fully captures the characteristics of real loads and that it can be used for downstream power system and/or machine learning applications.

Published
2021

4. Generation of synthetic multi‐resolution time series load data

Author

Andrea Pinceti, Lalitha Sankar, and Oliver Kosut

Subjects
artificial intelligence and data analytics, big data, data analysis, learning (artificial intelligence), load flow, multilayer perceptrons, Electrical engineering. Electronics. Nuclear engineering, TK1-9971
Abstract

Abstract The availability of large datasets is crucial for the development of new power system applications and tools; unfortunately, very few are publicly and freely available. The authors designed an end‐to‐end generative framework for the creation of synthetic bus‐level time‐series load data for transmission networks. The model is trained on a real dataset of over 70 Terabytes of synchrophasor measurements spanning multiple years. Leveraging a combination of principal component analysis and conditional generative adversarial network models, the developed scheme allows for the generation of data at varying sampling rates (up to a maximum of 30 samples per second) and ranging in length from seconds to years. The generative models are tested extensively to verify that they correctly capture the diverse characteristics of real loads. Finally, an opensource tool called LoadGAN is developed which gives researchers access to the fully trained generative models via a graphical interface.

Published
2023
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5. A Verifiable Framework for Cyber-Physical Attacks and Countermeasures in a Resilient Electric Power Grid

Author

Chu, Zhigang, Pinceti, Andrea, Kaviani, Ramin, Khodadadeh, Roozbeh, Li, Xingpeng, Zhang, Jiazi, Saikumar, Karthik, Sahraei-Ardakani, Mostafa, Mosier, Christopher, Podmore, Robin, Hedman, Kory, Kosut, Oliver, and Sankar, Lalitha

Subjects
Electrical Engineering and Systems Science - Systems and Control
Abstract

In this paper, we investigate the feasibility and physical consequences of cyber attacks against energy management systems (EMS). Within this framework, we have designed a complete simulation platform to emulate realistic EMS operations: it includes state estimation (SE), real-time contingency analysis (RTCA), and security constrained economic dispatch (SCED). This software platform allowed us to achieve two main objectives: 1) to study the cyber vulnerabilities of an EMS and understand their consequences on the system, and 2) to formulate and implement countermeasures against cyber-attacks exploiting these vulnerabilities. Our results show that the false data injection attacks against state estimation described in the literature do not easily cause base-case overflows because of the conservatism introduced by RTCA. For a successful attack, a more sophisticated model that includes all of the EMS blocks is needed; even in this scenario, only post-contingency violations can be achieved. Nonetheless, we propose several countermeasures that can detect changes due to cyber-attacks and limit their impact on the system.

Published
2021

6. Detection and Localization of Load Redistribution Attacks on Large Scale Systems

Author

Pinceti, Andrea, Sankar, Lalitha, and Kosut, Oliver

Subjects
Electrical Engineering and Systems Science - Systems and Control
Abstract

A nearest neighbor-based detection scheme against load redistribution attacks is presented. The detector is designed to scale from small to very large systems while guaranteeing consistent detection performance. Extensive testing is performed on a realistic, large scale system to evaluate the performance of the proposed detector against a wide range of attacks, from simple random noise attacks to sophisticated load redistribution attacks. The detection capability is analyzed against different attack parameters to evaluate its sensitivity. Finally, a statistical test that leverages the proposed detection algorithm is introduced to identify which loads are likely to have been maliciously modified, thus, localizing the attack subgraph. This test is based on ascribing to each load a risk measure (probability of being attacked) and then computing the best posterior likelihood that minimizes log-loss., Comment: 9 pages, 10 figures

Published
2019

7. Can Predictive Filters Detect Gradually Ramping False Data Injection Attacks Against PMUs?

Author

Chu, Zhigang, Pinceti, Andrea, Biswas, Reetam Sen, Kosut, Oliver, Pal, Anamitra, and Sankar, Lalitha

Subjects
Computer Science - Systems and Control
Abstract

Intelligently designed false data injection (FDI) attacks have been shown to be able to bypass the $\chi^2$-test based bad data detector (BDD), resulting in physical consequences (such as line overloads) in the power system. In this paper, it is shown that if an attack is suddenly injected into the system, a predictive filter with sufficient accuracy is able to detect it. However, an attacker can gradually increase the magnitude of the attack to avoid detection, and still cause damage to the system., Comment: 6 pages, 5 figures, submitted to SmartGridComm 2019

Published
2019

8. Synthetic PMU Data Creation Based on Generative Adversarial Network Under Time-varying Load Conditions

Author

Xiangtian Zheng, Andrea Pinceti, Lalitha Sankar, and Le Xie

Subjects
Synthetic phasor measurement unit data, generative adversarial networks, neural ordinary differential equations, data-driven method, Production of electric energy or power. Powerplants. Central stations, TK1001-1841, Renewable energy sources, TJ807-830
Abstract

In this study, a machine learning based method is proposed for creating synthetic eventful phasor measurement unit (PMU) data under time-varying load conditions. The proposed method leverages generative adversarial networks to create quasi-steady states for the power system under slowly-varying load conditions and incorporates a framework of neural ordinary differential equations (ODEs) to capture the transient behaviors of the system during voltage oscillation events. A numerical example of a large power grid suggests that this method can create realistic synthetic eventful PMU voltage measurements based on the associated real PMU data without any knowledge of the underlying nonlinear dynamic equations. The results demonstrate that the synthetic voltage measurements have the key characteristics of real system behavior on distinct time scales.

Published
2023
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9. Detection and Localization of Load Redistribution Attacks on Large-scale Systems

Author

Andrea Pinceti, Lalitha Sankar, and Oliver Kosut

Subjects
Attack detection, cyber-security, false data injection (FDI) attack, load redistribution attack, machine learning, nearest neighbor, Production of electric energy or power. Powerplants. Central stations, TK1001-1841, Renewable energy sources, TJ807-830
Abstract

A nearest-neighbor-based detector against load redistribution attacks is presented. The detector is designed to scale from small-scale to very large-scale systems while guaranteeing consistent detection performance. Extensive testing is performed on a realistic large-scale system to evaluate the performance of the proposed detector against a wide range of attacks, from simple random noise attacks to sophisticated load redistribution attacks. The detection capability is analyzed against different attack parameters to evaluate its sensitivity. A statistical test that leverages the proposed detector is introduced to identify which loads are likely to have been maliciously modified, thus, localizing the attack subgraph. This test is based on ascribing to each load a risk measure (probability of being attacked) and then computing the best posterior likelihood that minimizes log-loss.

Published
2022
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12. Can we use IEC 61850 for safety related functions?

Author

Luca Rocca, Paolo Pinceti, and Micaela Caserza Magro

Subjects
communication protocols, fieldbus, functional safety, iec 61508, iec 61850, Electrical engineering. Electronics. Nuclear engineering, TK1-9971, Environmental sciences, GE1-350
Abstract

Safety is an essential issue for processes that present high risk for human beings and environment. An acceptable level of risk is obtained both with actions on the process itself (risk reduction) and with the use of special safety systems that switch the process into safe mode when a fault or an abnormal operation mode happens. These safety systems are today based on digital devices that communicate through digital networks. The IEC 61508 series specifies the safety requirements of all the devices that are involved in a safety function, including the communication network. Also electrical generation and distribution systems are processes that may have a significant level of risk, so the criteria stated by the IEC 61508 applies. Starting from this consideration, the paper analyzes the safety requirement for the communication network and compare them with the services of the communication protocol IEC 61850 that represents the most used protocol for automation of electrical plants. The goal of this job is to demonstrate that, from the technical point of view, IEC 61850 can be used for implementing safety-related functions, even if a formal safety certification is still missing.

Published
2016
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14. Differential Effects of E2 on MAPK Activity in the Brain and Heart of Aged Female Rats.

Author

Elena Pinceti, Cody L Shults, Yathindar S Rao, and Toni R Pak

Subjects
Medicine, Science
Abstract

Aging and the coincident loss of circulating estrogens at menopause lead to increased risks for neurological and cardiovascular pathologies. Clinical studies show that estrogen therapy (ET) can be beneficial in mitigating these negative effects, in both the brain and heart, when it is initiated shortly after the perimenopausal transition. However, this same therapy is detrimental when initiated >10 years postmenopause. Importantly, the molecular mechanisms underlying this age-related switch in ET efficacy are unknown. Estrogen receptors (ERs) mediate the neuroprotective and cardioprotective functions of estrogens by modulating gene transcription or, non-genomically, by activating second messenger signaling pathways, such as mitogen activated protein kinases (MAPK). These kinases are critical regulators of cell signaling pathways and have widespread downstream effects. Our hypothesis is that age and estrogen deprivation following menopause alters the expression and activation of the MAPK family members p38 and ERK in the brain and heart. To test this hypothesis, we used a surgically induced model of menopause in 18 month old rats through bilateral ovariectomy (OVX) followed by an acute dose of 17β-estradiol (E2) administered at varying time points post-OVX (1 week, 4 weeks, 8 weeks, or 12 weeks). Age and E2 treatment differentially regulated kinase activity in both the brain and heart, and the effects were also brain region specific. MAPK signaling plays an integral role in aging, and the aberrant regulation of those signaling pathways might be involved in age-related disorders. Clinical studies show benefits of ET during early menopause but detrimental effects later, which might be reflective of changes in kinase expression and activation status.

Published
2016
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15. Effects-Based Monitoring of Geomagnetically-Induced Current Using a Convolutional Neural Network

Author

Ademola, Adedasola A., Li, Xiawen, Pinceti, Andrea, Till, Micah J., Jones, Kevin D., Gardner, R. Matthew, and Liu, Yilu

Abstract

Geomagnetically-induced current (GIC) due to space weather can flow in the power grid causing undesirable effects such as transformer overheating, misoperation of protection devices, and potential blackouts. It is therefore important to monitor GIC in the power grid to improve online situational awareness and decision-making of system operators during a geomagnetic disturbance. To avoid the costly installation of GIC monitors at transformers’ neutrals, it is desirable to find correlations between GIC and already-monitored parameters. Hence, this work proposed the use of a convolutional neural network (CNN) to compute GIC amplitudes from learned patterns in the time-series data of transformer even harmonic currents. Using an electromagnetic transient program, GIC injection simulations were performed for a modeled Dominion Energy Virginia (DEV) substation with two 504 MVA, 500/230 kV transformers. Data collected from these offline simulations were used to train the CNN to provide online GIC monitoring. Testing the CNN performance involved using real GIC measurements from published literature and from a physical GIC monitor in the DEV area. The results showed that the proposed method was able to provide GIC readings with a root mean squared error of 1.56 A/phase (equivalent to an average accuracy of 94%) for these real GIC waveforms.

Published
2023
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16. PMU Tracker: A Visualization Platform for Epicentric Event Propagation Analysis in the Power Grid

Author

Arunkumar, Anjana, Pinceti, Andrea, Sankar, Lalitha, and Bryan, Chris

Abstract

The electrical power grid is a critical infrastructure, with disruptions in transmission having severe repercussions on daily activities, across multiple sectors. To identify, prevent, and mitigate such events, power grids are being refurbished as ‘smart’ systems that include the widespread deployment of GPS-enabled phasor measurement units (PMUs). PMUs provide fast, precise, and time-synchronized measurements of voltage and current, enabling real-time wide-area monitoring and control. However, the potential benefits of PMUs, for analyzing grid events like abnormal power oscillations and load fluctuations, are hindered by the fact that these sensors produce large, concurrent volumes of noisy data. In this paper, we describe working with power grid engineers to investigate how this problem can be addressed from a visual analytics perspective. As a result, we have developed PMU Tracker, an event localization tool that supports power grid operators in visually analyzing and identifying power grid events and tracking their propagation through the power grid's network. As a part of the PMU Tracker interface, we develop a novel visualization technique which we term an epicentric cluster dendrogram, which allows operators to analyze the effects of an event as it propagates outwards from a source location. We robustly validate PMU Tracker with: (1) a usage scenario demonstrating how PMU Tracker can be used to analyze anomalous grid events, and (2) case studies with power grid operators using a real-world interconnection dataset. Our results indicate that PMU Tracker effectively supports the analysis of power grid events; we also demonstrate and discuss how PMU Tracker's visual analytics approach can be generalized to other domains composed of time-varying networks with epicentric event characteristics.

Published
2023
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17. PMUVis : A Large-Scale Platform to Assist Power System Operators in a Smart Grid

Author

Arunkumar, Anjana, Gupta, Nitin, Pinceti, Andrea, Sankar, Lalitha, and Bryan, Chris

Abstract

Electric transmission power grids are being revamped with the widespread deployment of GPS-enabled phasor measurement units (PMUs) for real-time wide-area monitoring and control via precise, time-synchronized measurements of voltage and current. Large, concurrently produced volumes of noisy data hinder PMU usability, particularly for the analysis of power oscillation and load fluctuation events in the grid. We examine visualization challenges for events in the electric power grid and develop PMUVis, a visualization platform that supports scalable analysis of grid network topology and anomalous events in near time. PMUVis incorporates a novel FFT-based approach over raw and temporally aggregated data to examine oscillation event propagation through the grid network. We validate PMUVis with expert reviews and a case study and discuss how visualization can be leveraged to enhance real-time spatiotemporal grid analysis by advancing operator capabilities.

Published
2022
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24. How will XML impact industrial automation?

Author

Pinceti, P

Subjects
ComputingMethodologies_DOCUMENTANDTEXTPROCESSING, Scientific Computing
Abstract

A working group of the World Wide Web Consortium (W3C) has overcome the limits of both HTML and SGML with the definition of the extensible markup language - XML. This article looks at how XML will affect industrial automation (2 pages).

Published
2002

36. Aging and Loss of Circulating 17β-Estradiol Alters the Alternative Splicing of ERβ in the Female Rat Brain

Author

Shults, Cody L., Pinceti, Elena, Rao, Yathindar S., and Pak, Toni R.

Abstract

Loss of circulating 17β-estradiol (E2) that occurs during menopause can have detrimental effects on cognitive function. The efficacy of hormone replacement therapy declines as women become farther removed from the menopausal transition, yet the molecular mechanisms underlying this age-related switch in E2 efficacy are unknown. We hypothesized that aging and varying lengths of E2 deprivation alters the ratio of alternatively spliced estrogen receptor (ER)β isoforms in the brain of female rats. Further, we tested whether changes in global transcriptional activity and splicing kinetics regulate the alternative splicing of ERβ. Our results revealed brain region-specific changes in ERβ alternative splicing in both aging and E2-deprivation paradigms and showed that ERβ could mediate E2-induced alternative splicing. Global transcriptional activity, as measured by phosphorylated RNA polymerase II, was also regulated by age and E2 in specific brain regions. Finally, we show that inhibition of topoisomerase I resulted in increased ERβ2 splice variant expression.

Published
2015
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38. Age-dependent Effects of 17β-estradiol on the Dynamics of Estrogen Receptor β (ERβ) Protein–Protein Interactions in the Ventral Hippocampus*

Author

Mott, Natasha N., Pinceti, Elena, Rao, Yathindar S., Przybycien-Szymanska, Magdalena M., Prins, Sarah A., Shults, Cody L., Yang, Xinli, Glucksman, Marc J., Roberts, James L., and Pak, Toni R.

Abstract

Recent clinical evidence suggests that the neuroprotective and beneficial effects of hormone therapy may be limited by factors related to age and reproductive status. The patient's age and length of time without circulating ovarian hormones are likely to be key factors in the specific neurological outcomes of hormone therapy. However, the mechanisms underlying age-related changes in hormone efficacy have not been determined. We hypothesized that there are intrinsic changes in estrogen receptor β (ERβ) function that determine its ability to mediate the actions of 17β-estradiol (E2) in brain regions such as the ventral hippocampus. In this study, we identified and quantified a subset of ERβ protein interactions in the ventral hippocampus that were significantly altered by E2 replacement in young and aged animals, using two-dimensional differential gel electrophoresis coupled with liquid chromatography–electrospray ionization–tandem mass spectrometry. This study demonstrates quantitative changes in ERβ protein–protein interactions with E2 replacement that are dependent upon age in the ventral hippocampus and how these changes could alter processes such as transcriptional regulation. Thus, our data provide evidence that changes in ERβ protein interactions are a potential mechanism for age-related changes in E2 responsiveness in the brain after menopause.

Published
2014
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41. Emergency Operation of Electrical Power Plants: Effects of Thermal Unit Controls on Frequency Transients

Author

Delfino, B., Denegri, G.B., Invernizzi, M., and Pinceti, P.

Abstract

The effect of thermal plant response on system frequency control is investigated in the paper using the results of computer simulation studies. Particularly, when islanding conditions for loss of generation or loss of heavy import are involved, the frequency deviation is largely influenced by the prime mover energy supply system as well as by the governing characteristics. As the response time frame of large steam units is on the order of minutes, the problem of the evaluation of grid frequency behaviour is cast in the so-called mid-term period. Consequently, interactions between the electrical grid and boiler turbine units are here evaluated on the basis of a mid-term modelling of the overall system. The time response of the system frequency and of some typical thermal variables are simulated for different operating modes of boiler turbine controls; the trends of such variables are correlated and compared in order to give an insight of the effects of the thermal dynamics on the frequency behaviour of an isolated power system.

Published
1987
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42. Evaluating Closed Loop Fast Valving Performance in Power Plants

Author

Xiaoshi, Y., Delfino, B., Denegri, G.B., Invernizzi, M., and Pinceti, P.

Abstract

The stability of a generator following a sudden power imbalance, caused either by a short circuit or a load rejection, may be significantly increased adopting particular techniques of control of the turbine valves called "fast valving" (also "early valve actuation"). The control law is normally pre-defined on the bases of simulation studies of the power system dynamics, and may sometimes not match the precise system requirements in the real faulted conditions. A new control logic is proposed in the paper, based only on on-line measured variables, and probably better matching the system needs; this logic is called "Closed-Loop Fast Valving" (CLFV).The effectiveness of the CLFV is tested by means of computer simulations making use of the EMTP code.

Published
1989
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