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1. Recurrent Graph Transformer Network for Multiple Fault Localization in Naval Shipboard Systems

Author

Ngo, Quang-Ha, Barnola, Isabel, Vu, Tuyen, Zhang, Jianhua, Ravindra, Harsha, Schoder, Karl, and Ginn, Herbert

Subjects
Electrical Engineering and Systems Science - Systems and Control
Abstract

The integration of power electronics building blocks in modern MVDC 12kV Naval ship systems enhances energy management and functionality but also introduces complex fault detection and control challenges. These challenges strain traditional fault diagnostic methods, making it difficult to detect and manage faults across multiple locations while maintaining system stability and performance. This paper proposes a temporal recurrent graph transformer network for fault diagnosis in naval MVDC 12kV shipboard systems. The deep graph neural network uses gated recurrent units to capture temporal features and a multi-head attention mechanism to extract spatial features, enhancing diagnostic accuracy. The approach effectively identifies and evaluates successive multiple faults with high precision. The method is implemented and validated on the MVDC 12kV shipboard system designed by the ESDRC team, incorporating all key components. Results show significant improvements in fault localization accuracy, with a 1-4% increase in performance metrics compared to other machine learning methods., Comment: 10 pages

Published
2024

2. Advanced Load Shedding for Integrated Power and Energy Systems

Author

Nguyen, Bang L. H., Vu, Tuyen, Ogilvie, Colin, Ravindra, Harsha, Stanovich, Mark, Schoder, Karl, Steurer, Michael, Konstantinou, Charalambos, Ginn, Herbert, and Schegan, Christian

Subjects
Electrical Engineering and Systems Science - Systems and Control
Abstract

This paper introduces an advanced load shedding algorithm to improve the operability performance of a medium voltage direct current (MVDC) integrated shipboard power and energy system. Outcomes are compared to a baseline algorithm while considering power generation contingency scenarios. The case study is conducted with a real-time, embedded algorithm implementation using a control hardware-in-the-loop (CHIL) setup., Comment: 6 pages, 9 figures

Published
2021

3. Distributed Dynamic State-Input Estimation for Power Networks of Microgrids and Active Distribution Systems with Unknown Inputs

Author

Nguyen, Bang L. H., Vu, Tuyen V., Guerrero, Joseph M., Steurer, Mischael, Schoder, Karl, and Ngo, Tuan

Subjects
Electrical Engineering and Systems Science - Systems and Control
Abstract

This paper proposes a joint input and state dynamic estimation scheme for power networks in microgrids and active distribution systems with unknown inputs. The conventional dynamic state estimation of power networks in the transmission system relies on the forecasting methods to obtain the state-transition model of state variables. However, under highly dynamic conditions in the operation of microgrids and active distribution networks, this approach may become ineffective as the forecasting accuracy is not guaranteed. To overcome such drawbacks, this paper employs the power networks model derived from the physical equations of branch currents. Specifically, the power network model is a linear state-space model, in which the state vector consists of branch currents, and the input vector consists of bus voltages. To estimate both state and input variables, we propose linear Kalman-based dynamic filtering algorithms in batch-mode regression form, considering the cross-correlation between states and inputs. For the scalability of the proposed scheme, the distributed implementation is also presented. Complementarily, the predicted state and input vectors are leveraged for bad data detection. Results carried out on a 13-bus microgrid system in real-time Opal-RT platform demonstrate the effectiveness of the proposed method in comparison with the traditional weighted least square and tracking state estimation methods.

Published
2021

4. Modeling Communication Networks in a Real-Time Simulation Environment for Evaluating Controls of Shipboard Power Systems

Author

Ogilvie, Colin, Ospina, Juan, Konstantinou, Charalambos, Vu, Tuyen, Stanovich, Mark, Schoder, Karl, and Steurer, Mischa

Subjects
Electrical Engineering and Systems Science - Signal Processing, Computer Science - Networking and Internet Architecture, Electrical Engineering and Systems Science - Systems and Control
Abstract

Interest by the U.S. Navy in the development and deployment of advanced controls in future shipboard platforms has motivated the development of the Controls Evaluation Framework (CEF) for use in investigating dynamics present in complex automated systems. This paper reports on the implementation and investigation of a communication network component within the CEF. This implementation is designed to augment the CEF's available feature set, permitting the exploration of various communication conditions on advanced control performance. Results obtained from controller hardware-in-the-loop testing are presented and analyzed to demonstrate performance characteristics pertaining to the implemented module., Comment: 7 pages, 8 figures, 2 tables

Published
2020

5. Microgrid Control Using Remote Controller Hardware-in-the-Loop Over the Internet

Author

Valibeygi, Amir, de Callafon, Raymond, Stanovich, Mark, Sloderbeck, Michael, Schoder, Karl, Langston, James, Leonard, Isaac, Chatterjee, Sourindu, and Meeker, Rick

Subjects
Computer Science - Systems and Control
Abstract

A centralized microgrid power management and control system is developed and tested with a Hardware-In-the-Loop (HIL) Real-Time Digital Simulator (RTDS) model of an existing microgrid that communicates in real-time with the controller over the Internet. The controller leverages Phasor Measurement Units (PMUs) for measuring power flow and adjusting inverter power references in real-time. The control objectives are power and State-of-Charge (SoC) control, subject to inverter power amplitude and rate limits and communication constraints. The controller incorporates units of power control, SoC control, and adaptive reference scheduling to achieve seamless microgrid operation. Real-time, over the internet, hardware-in-the-loop tests between the controller and the simulator are realized and indicate stability and performance of the microgrid control system.

Published
2018

7. A prediction and load shed-based approach of controlling a medium voltage AC/DC testbed

Author

Tschritter, Cole, primary, Johnston, Alexander, additional, Wetz, David, additional, Vu, Lihn, additional, Vu, Tuyen, additional, Nguyen, Thanh, additional, Langston, James, additional, Ravindra, Harsha, additional, Schoder, Karl, additional, Stanovich, Mark, additional, Steurer, Mischa, additional, Schegan, Christian, additional, and Heinzel, John, additional

Published
2024
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10. Remote Site Real-Time Co-Simulation of a Shipboard Microgrid

Author

De La O, Castulo A., primary, Difronzo, Michele, additional, Milton, Matthew, additional, Ginn, Herbert L., additional, Stanovich, Mark, additional, Park, Jacob, additional, Schoder, Karl, additional, Steurer, Mischa, additional, Wetz, David, additional, Tschritter, Cole, additional, Turner, Greg, additional, and Johnston, Alex, additional

Published
2022
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12. A Review of Current Research Trends in Power-Electronic Innovations in Cyber–Physical Systems

Author

Mazumder, Sudip K., primary, Kulkarni, Abhijit, additional, Sahoo, Subham, additional, Blaabjerg, Frede, additional, Mantooth, H. Alan, additional, Balda, Juan Carlos, additional, Zhao, Yue, additional, Ramos-Ruiz, Jorge A., additional, Enjeti, Prasad N., additional, Kumar, P. R., additional, Xie, Le, additional, Enslin, Johan H., additional, Ozpineci, Burak, additional, Annaswamy, Anuradha, additional, Ginn, Herbert L., additional, Qiu, Feng, additional, Liu, Jianzhe, additional, Smida, Besma, additional, Ogilvie, Colin, additional, Ospina, Juan, additional, Konstantinou, Charalambos, additional, Stanovich, Mark, additional, Schoder, Karl, additional, Steurer, Michael, additional, Vu, Tuyen, additional, He, Lina, additional, and de la Fuente, Eduardo Pilo, additional

Published
2021
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13. Advanced Load Shedding for Integrated Power and Energy Systems

Author

Nguyen, Bang L. H., primary, Vu, Tuyen, additional, Ogilvie, Colin, additional, Ravindra, Harsha, additional, Stanovich, Mark, additional, Schoder, Karl, additional, Steurer, Michael, additional, Konstantinou, Charalambos, additional, Ginn, Herbert, additional, and Schegan, Christian, additional

Published
2021
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18. PAT: a power analysis toolbox for MATLAB/Simulink

Author

Schoder, Karl, Hasanovic, Amer, Feliachi, Ali, and Hasanovic, Azra

Subjects
Electric power systems -- Models, Electric power systems -- United States, Business, Electronics, Electronics and electrical industries
Abstract

A power system simulation environment in MATLAB/Simulink is presented in this paper. The developed power analysis toolbox (PAT) is a very flexible and modular tool for load flow, transient, and small-signal analysis of electric power systems. Standard power system component models and a wide range of flexible ac transmission systems (FACTS) devices are included. Its data structure and block library have been tested to confirm its applicability to small-to-medium-sized power systems. Its advantages over an existing commercial package are given. Index Terms--MATLAB, PAT, simulation, Simulink, transient stability.

Published
2003

26. Banshee distribution network benchmark and prototyping platform for hardware‐in‐the‐loop integration of microgrid and device controllers

Author

Salcedo, Reynaldo, primary, Corbett, Edward, additional, Smith, Christopher, additional, Limpaecher, Erik, additional, Rekha, Raajiv, additional, Nowocin, John, additional, Lauss, Georg, additional, Fonkwe, Edwin, additional, Almeida, Murilo, additional, Gartner, Peter, additional, Manson, Scott, additional, Nayak, Bharath, additional, Celanovic, Ivan, additional, Dufour, Christian, additional, Faruque, M.Omar, additional, Schoder, Karl, additional, Brandl, Ron, additional, Kotsampopoulos, Panos, additional, Ham Ha, Thrung, additional, Davoudi, Ali, additional, Dehkordi, Ali, additional, and Strunz, Kai, additional

Published
2019
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42. Testing of a novel medium voltage impedance measurement unit

Author

Schoder, Karl, primary, Steurer, Mischa, additional, Bogdan, Ferene, additional, Hauer, John, additional, Langston, James, additional, Boroyevich, Dushan, additional, Burgos, Rolando, additional, Cvetkovic, Igor, additional, Shen, Zhiyu, additional, and DiMarino, Christina, additional

Published
2015
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44. Test environment for a novel medium voltage impedance measurement unit

Author

Bogdan, Ferenc, primary, Hauer, John, additional, Langston, James, additional, Schoder, Karl, additional, Steurer, Mischa, additional, Cvetkovic, Igor, additional, Shen, Zhiyu, additional, Jaksic, Marko, additional, DiMarino, Christina, additional, Chen, Fang, additional, Boroyevich, Dushan, additional, and Burgos, Rolando, additional

Published
2015
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46. Megawatt Scale Hardware-in-the-Loop Testing of a High Speed Generator

Author

AIR FORCE RESEARCH LAB WRIGHT-PATTERSON AFB OH PROPULSION DIR/POWER DIV/MECHANICAL ENERGY CONVERSION BRANCH, Yost, Kevin, Langston, James, Steurer, Michael, Schoder, Karl, Hauer, John, Bogdan, Ferenc, Leonard, Isaac, Chiocchio, Tim, Sloderbeck, Michael, Farrell, Andrew, Vaidya, Jay, AIR FORCE RESEARCH LAB WRIGHT-PATTERSON AFB OH PROPULSION DIR/POWER DIV/MECHANICAL ENERGY CONVERSION BRANCH, Yost, Kevin, Langston, James, Steurer, Michael, Schoder, Karl, Hauer, John, Bogdan, Ferenc, Leonard, Isaac, Chiocchio, Tim, Sloderbeck, Michael, Farrell, Andrew, and Vaidya, Jay

Abstract

A megawatt scale test bed for power hardware-in-the-loop experimentation with high speed generators is described, and selected results from testing of a generator are presented. The test bed includes a dynamometer and high speed gearbox used to deliver up to 5 MW to the mechanical shaft of a generator at speeds of up to 24000 rpm. A rectifier using fast recovery diodes is used to rectify the voltage at the terminals of the machine, and a 2.5 MW bi-directional DC converter is used as a dynamic load for the generator. Both the dynamometer and converter are controlled using a large scale real time simulator, enabling power hardware-in-the-loop simulation experiments to be conducted. Herein, testing is described of a new, prototype high speed generator and its associated voltage regulator using this facility. The generator has been subjected to steady-state loading at power levels above 1 MW, as well as load ramps with rates exceeding 500 kW/s. Challenges involved in the testing, as well as some of the possibilities for future tests with the setup are described., Presented at the American Society of Naval Engineers, (ASNE Day), Arlington, VA, February 9-10, 2012. Sponsored in part by ONR.

Published
2012

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