Armando Y. Montoya scite author profile

Armando Y. Montoya

3Publications

10Citation Statements Received

47Citation Statements Given

How they've been cited

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Affiliations

Sandia National Laboratories, The University of Texas at El Paso, Sandia National Laboratories California

Publications

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Embedded, Real-Time, and Distributed Traveling Wave Fault Location Method Using Graph Convolutional Neural Networks

et al. 2022

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This work proposes and develops an implementation of a fault location method to provide a fast and resilient protection scheme for power distribution systems. The method analyzes the transient dynamics of traveling waves (TWs) to generate features using the discrete wavelet transform (DWT), which are then used to train several graph convolutional network (GCN) models. Faults are simulated in the IEEE 34-node system, which is divided into three protection zones (PZs). The goal is to identify the PZ in which the fault occurs. The GCN models create a distributed protection scheme, as all nodes are able to retrieve a prediction. Given that message-passing between nodes occurs both during training and in the execution of the model, the resiliency of such schemes to communication losses was analyzed and demonstrated. One of the models, which only uses voltage measurements, was implemented on a Texas Instruments F28379D development board. The execution times were monitored to assess the speed of the protection scheme. It is shown that the proposed method can be executed in approximately a millisecond, which is comparable to existing TW protection in the transmission system. For experimental purposes, a DWT-based detection method is employed. A design of a setup to playback TWs using two development boards is also addressed.

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Day-Ahead and Week-Ahead Solar PV Power Forecasting Using Deep Learning Neural Networks

Montoya

Mandal

2022

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A Fast Microprocessor-Based Traveling Wave Fault Detection System for Electrical Power Networks

Montoya

Jiménez-Aparicio

Hernández-Alvídrez

et al. 2023

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