Dr. DUNSTANO DEL PUERTO FLORES
Resumen curricular:
Dunstano es profesor de tiempo completo del Centro Universitario de Ciencias Exactas e Ingenierías, Departamento Ing. Mecánica-Eléctrica, de la Universidad de Guadalajara desde agosto del 2016. Cuenta con los grados académicos de Ing. en Electrónica (TecNM), M. en C. en Ing. Electrónica (CENIDET) y Doctorado por la Facultad de Matemáticas y Ciencias Naturales (RuG). Es miembro del Sistema Nacional de Investigadoras e Investigadores (N-1), con un índice H de 5 y 12 artículos JCR (datos de nov. 2023). Las áreas de investigación en que él contribuyen están: Control no lineal con énfasis en el control basado en pasividad y el modelado basado en la energía, Control geométrico de sistemas con dinámica rápida-lenta, Teoría de circuitos no lineales, Análisis y Control de sistemas eléctricos de potencia y microrredes, de convertidores de electrónica de potencia y convertidores de red, Control óptimo del flujo de potencia en microrredes HVDC con multi-terminales, Sincronización de red en generación distribuida y Procesamiento de señales en tiempo discreto.
Perfil de Investigador SNII:
Bases de datos bibliográficas:
Publicaciones del académico:
- On lossless negative imaginary property for the characterization of LCL filters
- Prescriptive Grid-Tied Inverter Control
- Monitoring and Control of Electrical Power Systems using Machine Learning Techniques
- Adaptive notch filter-based abc–dq–abc transformation
- Adaptive notch filter-based abc–dq–abc transformation
- Adaptive notch filter-based abc–dq–abc transformation
- Adaptive notch filter-based abc–dq–abc transformation
- DC-Link Capacitors' Voltage Balance in an HB-NPC Five-Level Grid-Tied Inverter via the Common-Mode Control Component
- Adaptive notch filter-based abc–dq–abc transformation
- Adaptive notch filter-based abc–dq–abc transformation
- A single-phase globally stable frequency-locked loop based on the second-order harmonic oscillator model
- A Geographic Information System Application to Estimate the Weather-Dependent Power System Losses
- Port-Hamiltonian based Optimal Power Flow algorithm for multi-terminal DC networks
- Stabilization of a class of slow–fast control systems at non-hyperbolic points
- Stabilization of a class of slow–fast control systems at non-hyperbolic points
- Analysis of synchronverters and droop control scheme during microgrid operation: A performance comparison approach
- Synthesizing electrical signals with harmonic and inter-harmonic components through generalized Fourier series
- Dynamic Characterization of a Reduced Model for the SVC using Dynamic Phasors Approach
- Optimal Power Flow for resistive DC Networks: a Port-Hamiltonian approach
- Nonlinear adaptive stabilization of a class of planar slow-fast systems at a non-hyperbolic point
- A phase-locked loop with saturated estimator for single-phase grid synchronization
- Strictly convex loss functions for port-Hamiltonian based optimization algorithm for MTDC networks
- Dissipativity-Based Control of Nonlinear Power Systems
- Power-based controller for a bidirectional AC-DC power converter
- On power factor improvement by lossless linear filters under nonlinear nonsinusoidal conditions
- On linear power factor compensation, power equalization and cyclo-dissipativity of nonlinear loads
- On power factor improvement by lossless linear filters in the nonlinear nonsinusoidal case
- A cyclodissipativity condition for power factor improvement under nonsinusoidal source with significant impedance