Your search keyword '"Raymundo Cordero"' showing total 28 results

1. Development of a Resonant Generalized Predictive Controller for Sinusoidal Reference Tracking

Author

Raymundo Cordero, Thyago Estrabis, G. Gentil, and M.A. Brito

Subjects

Task (computing), Model predictive control, Control theory, Computer science, Structure (category theory), Internal model, Predictive controller, Development (differential geometry), Reference tracking, Electrical and Electronic Engineering

Abstract

Sinusoidal reference tracking is required in important practical applications. Resonant controllers are suitable for that task. However, stable implementation of these controllers in a digital processor is difficult to achieve. On the other hand, quasi-resonant controllers are easier to implement, but they do not guarantee asymptotic reference tracking. This paper proposes a new resonant controller based on Generalized Predictive Control (GPC) and Internal Model Principle (IMP). The first-order and second-order difference operators are applied to create a GPC system whose structure embeds the Z-transform of the sinusoidal reference. Thus, according to IMP, the proposed controller, named Resonant Generalized Predictive Control (RGPC), asymptotically tracks sinusoidal references. Besides, the proposed RGPC has the advantages of GPC, such as fast response and easy implementation in digital processors. Experimental tests prove that the proposed RGPC has better performance than other controllers for sinusoidal reference tracking.

Published

2022

2. A Modified Algorithm for Training and Optimize RBF Neural Networks Applied to Sensor Measurements Validation

Author

Ruben Barros Godoy, Hebert C. Goncalves Teixeira, Marco Aurelio Duarte Alves, João Onofre Pereira Pinto, Luigi Galotto, Marcio Luiz Magri Kimpara, Raymundo Cordero Garcia, and Mario Cesar Mello Massa de Campos

Subjects

Mean squared error, Artificial neural network, Computer science, media_common.quotation_subject, Electronic mail, Data set, Robustness (computer science), Redundancy (engineering), Quality (business), Radial basis function, Electrical and Electronic Engineering, Instrumentation, Algorithm, media_common

Abstract

This paper presents the use of a radial basis function artificial neural network to estimate sensor readings exploring the analytical redundancy via auto-association. However, in order to guarantee optimal performance of the network, the training and optimization processes have been modified. In the conventional training algorithm, even if a stop criterion, such as summed squared error, is reached, one or more of the individual performance metrics, including: i) accuracy; ii) robustness; iii) spillover and iv) filtering of the neural network, may not be satisfactory while validating sensor measurements. Essentially, the proposed modification in the training algorithm is based on seeking to ensure that one or more of the metrics are met. This paper describes the proposed algorithm including all of its mathematical foundation. Afterward, a data set of a water injection pump for an oil and gas processing unit was used to train the RBF network using the conventional and the modified algorithm, and the performance of each was evaluated. Furthermore, the AAKR model is applied to the same dataset as a quality reference parameter. Finally, a comparison analysis of the developed models is presented for each of the performance metrics, as well as for overall effectiveness, demonstrating that the main advantage of the proposed approach is to obtain the estimation results equivalent or superior to the AAKR with shorter runtime and the disadvantage of having higher complexity during the model training.

Published

2021

3. Development of a Generalized Predictive Control System for Polynomial Reference Tracking

Author

G. Gentil, Edson Antonio Batista, Raymundo Cordero, Thyago Estrabis, and Cristiano Quevedo Andrea

Subjects

Polynomial, Model predictive control, Computer science, Control theory, Integrator, Control system, Internal model, Minification, Electrical and Electronic Engineering, Variable (mathematics)

Abstract

Some important applications require control systems capable of tracking high-degree polynomial references. However, polynomial reference tracking is difficult because the controller must have a fast response to track variable references. Generalized Predictive Control (GPC), used in industrial applications, has a fast response. However, up to now, GPC approaches in the literature are not designed for high-degree polynomial reference tracking. For that reason, this brief proposes a GPC system for the tracking of polynomial references of any degree. The high-order backward difference operator was used to develop an augmented prediction model designed to have an arbitrary number of embedded integrators. Thus, according to the internal model principle, the proposed predictive controller can track polynomial references of any degree. An optimization technique is used to define future control actions, while the control law is defined through the receding horizon principle. Simulation and experimental results prove that the proposed controller performs better than other approaches described in the literature.

Published

2021

4. Ramp-Tracking Generalized Predictive Control System-Based on Second-Order Difference

Author

Thyago Estrabis, Raymundo Cordero, Cristiano Quevedo Andrea, Edson Antonio Batista, and G. Gentil

Subjects

0209 industrial biotechnology, Computer science, Horizon, 020208 electrical & electronic engineering, Order (ring theory), 02 engineering and technology, Function (mathematics), Tracking (particle physics), Tracking error, Model predictive control, 020901 industrial engineering & automation, Control theory, Integrator, 0202 electrical engineering, electronic engineering, information engineering, Electrical and Electronic Engineering, Constant (mathematics)

Abstract

This brief proposes an adaptation of the Generalized Predictive Control (GPC) for ramp-reference tracking. The second-order difference operation and the plant model are used to get an augmented model with two embedded integrators and whose output is the tracking error. Differently from other GPC-based tracking algorithms, the proposed approach does not require information about the reference parameters, and the GPC prediction horizon is composed of the predicted errors instead of the expected plant outputs. Thus, the optimization function and the receding horizon strategy used in conventional GPC can be applied to get the control law. Simulation and experimental results prove that the proposed approach can successfully track constant and ramp references. The proposed method is applicable for single-input single-outputs plants. However, the mathematical background presented in this brief can be used in the development of new GPC strategies.

Published

2021

5. Improved Acquisition System for Sensored Vector Control Through Frequency-Domain Multiplexing, Synchronous Sampling, and Differential Evolution

Author

Walter Issamu Suemitsu, Angelo Darcy Molin Brun, Brayan Sobral da Fonseca, João Onofre Pereira Pinto, Faete J. T. Filho, and Raymundo Cordero Garcia

Subjects

Vector control, Observer (quantum physics), Angular displacement, Computer science, Stator, 010401 analytical chemistry, 01 natural sciences, Multiplexing, Synchronization, 0104 chemical sciences, Frequency-division multiplexing, law.invention, Crosstalk, Data acquisition, law, Resolver, Electronic engineering, Transient response, Electrical and Electronic Engineering, Instrumentation, Position sensor, Pulse-width modulation

Abstract

Frequency domain multiplexing (FDM) allows simplifying the data acquisition in vector control when the resolver is used as a position sensor. However, the crosstalk reduction in the demultiplexing process is still a difficult task. This article proposes an improvement of the FDM-based acquisition system through synchronous sampling and Differential Evolution (DE). The resolver signals and the PWM carrier are synchronized so that the resolver outputs are zero when the PWM carrier reaches its valleys. Thus, the fundamental component of the stator currents can be easily estimated from the signals sent to the acquisition system. These estimated current signals and an angle tracking observer (ATO) are used to estimate the angular position. DE and a discretized model of the ATO are applied in order to improve the angle estimation transient response and to reduce crosstalk. Conditions to apply the proposed multiplexing approach will be defined. Simulation and experimental results show that the proposed approach allows an accurate estimation of the current fundamental components and the angular position when FDM is used, with better performance respect to other approaches in the literature. This is the first time that a DE is used to tune an ATO.

Published

2021

6. Integrated Starter Alternator PMSM Drive for Hybrid Vehicles

Author

Ruben Barros Godoy, Marcio Luiz Magri Kimpara, Raymundo Cordero Garcia, João Onofre Pereira Pinto, and Moacyr A. G. de Brito

Subjects

Artificial neural network, Computer science, 020208 electrical & electronic engineering, Energy Engineering and Power Technology, 020302 automobile design & engineering, 02 engineering and technology, Automotive engineering, Computer Science Applications, law.invention, Electrification, 0203 mechanical engineering, Control and Systems Engineering, law, Power electronics, 0202 electrical engineering, electronic engineering, information engineering, Fuel efficiency, Torque, Alternator, Electrical and Electronic Engineering, Metaheuristic, Efficient energy use

Abstract

Transportation electrification is gaining notoriety in recent years as to fulfill the aim of reducing the fossil fuels consumption and to increase energy efficiency. Accordingly, integrated starter alternator is a compelling method to convert conventional vehicles into hybrid ones. A deal of benefits can be reached by using ISA systems. In general, it provides vehicles performance enhancement and also reduces fuel consumption. This paper aims to present simulation results and preliminary experimental achievements with a power electronics-based prototype driving a permanent magnet synchronous machine (PMSM). The ISA operation is demonstrated throughout providing cranking torque and assistant torque for constant power and constant torque conditions and afterward the generation mode. Details of the hardware design and control strategies, which include an ADALINE neural network for properly find the mechanical position and the application of a metaheuristic technique to tune the controllers of the motor control, have been also addressed.

Published

2020

7. Analysis of Measurement Error Compensation of Stationary αβ Stator Currents done through Auto-Associative Neural Network

Author

Thyago Estrabis, Luigi Galotto, Raymundo Cordero, Matheus Pelzl, Walter Issamu Suemitsu, and Gabriel Gentil

Subjects

Electric motor, Motor drive, Data acquisition, Vector control, Artificial neural network, Stator, law, Computer science, Control theory, Distortion, law.invention, Compensation (engineering)

Abstract

Precise and robust sensing of motor stator currents is essential for the closed-loop control of three-phase electrical motors. Usually, vector control techniques require representing the stator currents in an orthogonal αs reference system through Clarke transformation. However, problems such as aging, high temperatures and errors in the conditioning circuits distort the current signals received by the data acquisition system (DAQ) of the motor drive. Those distortions produce current measurement errors that affect the motor drive performance. This paper analyses the application of an auto-regressive neural network (AANN) to compensate for the measurement errors of the three-phase stator currents. The three stator currents of a three-phase motor are sensed to have data redundancy, as the sum of these currents is zero. AANN estimates the actual values of the stationary αs stator currents based on the distorted three-phase current signals. The compensation performance considering different AANN topologies is analyzed. Simulation results show that AANN allows compensating for the current measurement distortion. Low number of artificial neurons in the AANN hidden layers limits the compensation accuracy. However, a high number of neurons in the hidden layer also reduces the compensation performance due to over-fitting.

Published

2021

8. Analysis of the Application of Polynomial Reference Tracking Generalized Predictive Control in the Control of an LCL Filter

Author

Walter Issamu Suemitsu, Thyago Estrabis, Matheus Pelzl, Cesar Santos, Gabriel Gentil, and Raymundo Cordero

Subjects

Tracking error, Synchronization (alternating current), Model predictive control, Polynomial, Control theory, Computer science, Integrator, Control system, Degree of a polynomial, AC power

Abstract

LCL filters are widely used to connect a renewable electrical power source to the electrical grid. The optimal power transfer to the grid depends on the tracking of a sinusoidal current reference synchronized to the grid voltage. However, the tracking of that reference is a difficult task. On the other hand, the sinusoidal reference can be considered as composed of a set of polynomials of different degrees. Thus, this paper explores the application of polynomial reference tracking generalized predictive controller (Poly-GPC) to control the output current of the LCL filter connected to an AC grid. Different tests using the Poly-GPC with different polynomial reference degrees were performed to verify the relationship between the polynomial degree used to approximate the sinusoidal reference with the control accuracy. Simulation results show that the Poly-GPC can be used to control an LCL filter. An analysis of the effect of the polynomial order used to approximate the sinusoidal reference in the current reference tracking is done. The Poly-GPC adds integrators to the control system to reduce the tracking error. It was observed that adding too many integrators may create instability. However, a low number of integrators reduces the tracking performance.

Published

2021

9. Improved Noise Cancelling Algorithm for Electrocardiogram Based on Moving Average Adaptive Filter

Author

Moacyr A. G. de Brito, Américo K. Tanji, Naji Rajai Nasri Ama, Raymundo Cordero Garcia, Marcos G. Alves, and Gen-Lang Chen

Subjects

education.field_of_study, TK7800-8360, Computer Networks and Communications, Noise (signal processing), Computer science, biomedical electronics, Population, Context (language use), Signal, Electromagnetic interference, moving average filter, Adaptive filter, electrocardiograph, Hardware and Architecture, Control and Systems Engineering, EMI, Signal Processing, Electronic engineering, Electrical and Electronic Engineering, Electronics, education, Active noise control

Abstract

The electrocardiogram (ECG) is basic equipment used in the diagnosis of cardiac illness. However, in non-developed countries, most of the population does not have access to medical tests, and many hospitals do not even have these ECGs. On the other hand, the electrical signals generated by the heart and acquired by the ECG have low power and are affected by electromagnetic interference (EMI), mainly produced by the electrical system. Filtering EMI when frequency varies is a challenging task. Within this context, this work aims to produce an easy-to-use low-cost ECG with good electromagnetic disturbances rejection. The proposed noise rejection system is composed of two moving average filters and a phase-locked-loop, namely 2MAV-PLL. The system operates with a low sampling frequency and attenuates the EMI noise present in the ECG signal regardless of the amplitude, obtaining a filtered signal with a 44-dB signal–noise ratio (SNR) between the frequencies of± 10 Hz of the fundamental frequency. Simulation and experimental results prove that the ECG system can attenuate the EMI using relatively low sampling frequency, giving adequate information for health professionals to properly evaluate an electrocardiogram.

Published

2021

10. Semantic Segmentation With Labeling Uncertainty and Class Imbalance

Author

Jose Martins, Raymundo Cordero Garcia, José Marcato Junior, Jonathan de Andrade Silva, Zhipeng Luo, Wesley Nunes Gonçalves, Lucas Prado Osco, Ana Paula Marques Ramos, Diogo Nunes Gonçalves, Patrik Olã Bressan, Maximilian Jaderson Melo, Daniel Matte Freitas, and Jonathan Li

Subjects

Class (computer programming), Pixel, Process (engineering), Computer science, business.industry, ComputingMethodologies_IMAGEPROCESSINGANDCOMPUTERVISION, Pattern recognition, Convolutional neural network, Robustness (computer science), Segmentation, Noise (video), Artificial intelligence, business, Invariant (computer science)

Abstract

Recently, methods based on Convolutional Neural Networks (CNN) achieved impressive success in semantic segmentation tasks. However, challenges such as the class imbalance and the uncertainty in the pixel-labeling process are not completely addressed. As such, we present a new approach that calculates a weight for each pixel considering its class and uncertainty during the labeling process. The pixel-wise weights are used during training to increase or decrease the importance of the pixels. Experimental results using different datasets like aerial, terrestrial, and ultrasound images show that the proposed approach leads to significant improvements in three challenging segmentation tasks in comparison to baseline methods. It was also proved to be more invariant to noise. The approach presented here may be used within a wide range of semantic segmentation methods to improve their robustness.

Published

2021

11. Development of a Resolver-to-Digital Converter Based on Second-Order Difference Generalized Predictive Control

Author

Raymundo Cordero, Gabriel Gentil, and Thyago Estrabis

Subjects

Control and Optimization, Observer (quantum physics), Computer science, Energy Engineering and Power Technology, 02 engineering and technology, Astrophysics::Cosmology and Extragalactic Astrophysics, 01 natural sciences, lcsh:Technology, Control theory, Robustness (computer science), 0202 electrical engineering, electronic engineering, information engineering, resolver, Torque ripple, Electrical and Electronic Engineering, Engineering (miscellaneous), automotive_engineering, angle tracking observer, Renewable Energy, Sustainability and the Environment, lcsh:T, Angular displacement, 020208 electrical & electronic engineering, 010401 analytical chemistry, tracking, 0104 chemical sciences, Model predictive control, resolver-to-digital converter, generalized predictive control, Integrator, Resolver, Position sensor, Energy (miscellaneous)

Abstract

High-performance motor drives that operate in harsh conditions require an accurate and robust angular position measurement to properly estimate the speed and reduce the torque ripple produced by angular estimation error. For that reason, a resolver is used in motor drives as a position sensor due to its robustness. A resolver-to-digital converter (RDC) is an observer used to get the angular position from the resolver signals. Most RDCs are based on angle tracking observers (ATOs). On the other hand, generalized predictive control (GPC) has become a powerful tool in the development of controllers and observers for industrial applications. However, no GPC-based RDC with zero steady-state error during constant speed operation was proposed. This paper proposes an RDC based on a second-order difference GPC (SOD-GPC). In SOD-GPC, the second order difference operator is applied to design a GPC model with two embedded integrators. Thus, the SOD-GPC is used to design a type-II ATO whose steady-state angle estimation error tends to zero during constant speed operation. Simulation and experimental results prove that the proposed RDC system has better performance than other approaches in literature.

Published

2021

12. Design of an Angle Tracking Observer for Resolver Sensors using a Type-II System and Root Locus Technique

Author

Raymundo Cordero, Andre D'Estefani, and Polynne Modesto

Subjects

Robustness (computer science), Angular displacement, Control theory, Computer science, Resolver, Integrator, Root locus, Observer (special relativity), Transient response, Lead–lag compensator

Abstract

Resolver is an angular position sensor widely used in motor drives when robustness is critical. This sensor generates two high-frequency amplitude-modulated signals which give information about the angular position. A resolver-to-digital converter (RDC) is an equipment used to get the angular position from the resolver outputs. Many RDCs are based on angle tracking observer (ATO) which reduce the angle estimation error. The transient behavior of the angle estimation depends on the ATO parameters. This paper proposes the tuning of an ATO with two embedded integrators (a type-II system) through root-locus technique. It was used a lead compensator to improve the transient response of the ATO, while the embedded integrators make the steady-state error tend to zero for constant position and speed operation. Simulation results show that the ATO was properly tuned through root locus technique, allowing a good angle estimation.

Published

2020

13. Analysis about the Application of Frequency-Domain Multiplexing in Data Acquisition for Vector Control

Author

Polynne Modesto, Raymundo Cordero, and Thyago Estrabis

Subjects

Adder, Vector control, Data acquisition, Computer science, Resolver, Analogue switch, Electronic engineering, Current sensor, Filter (signal processing), Multiplexing

Abstract

Frequency-domain multiplexing (FDM) allows simplifying the acquisition hardware applied in the vector control of three-phase motors, when a resolver sensor is used to get the angular position. Conventionally, an analog switch is used together with an analog-to-digital converter to digitize the signals. This approach is based on time-domain multiplexing (TDM). However, the application of FDM in data acquisition has many advantages respect to the conventional approach based on TDM. Signals from the stator current sensors and from the resolver can be multiplexed in frequency by combining these signals through analog adders. Nevertheless, the demultiplexing process in order to recover the original data is still a open question. This paper does an analysis of the demultiplexed signals, in order to give more theoretical background for the development of improved data acquisition systems based on FDM. Simulation results show that using a high-pass filter improves the demultiplexing of the resolver outputs.

Published

2020

14. Modeling and Simulation of a Stirling Engine in SCILAB

Author

Thyago Estrabis, Augusto Hayashi, Raymundo Cordero, Joao Onofre, and Felipe Alexandre Monteiro

Subjects

021110 strategic, defence & security studies, Stirling engine, business.industry, Computer science, 0211 other engineering and technologies, Electric generator, 020206 networking & telecommunications, Control engineering, 02 engineering and technology, law.invention, Modeling and simulation, Cogeneration, symbols.namesake, Software, law, Thermodynamic cycle, 0202 electrical engineering, electronic engineering, information engineering, Stirling cycle, symbols, business, Carnot cycle

Abstract

Stirling cycle is the most similar to the Carnot cycle, which theoretically is the most efficient thermodynamic cycle. For that reason, Stirling engine is a powerful alternative in cogeneration, i.e., to produce electricity from different heat sources. The Stirling cycle is complicated to model, due to it has many equations. This paper shows the model of a Stirling engine developed in the free and open source SCILAB. The objective of this paper is to be a didactic tutorial to develop the model of the Stirling engine to be used as primary machine for the simulation of electrical generators used in cogeneration. The modeling using free software allows many students and researches to use and edit the model. The developed model gives information about pressure, volume, generated power and efficiency. Simulation results shows that the operative model done in SCILAB can be used in the analysis of Stirling engine.

Published

2019

15. Modeling and Simulation of a Stirling-Engine-based Generator Connected to the Grid

Author

Joao Onofre, Luigi GalottoJunior, Lourenco MatakasJunior, Raymundo Cordero, Augusto Hayashi, and Moacyr A. G. de Brito

Subjects

021110 strategic, defence & security studies, Stirling engine, Computer science, 0211 other engineering and technologies, Electric generator, 020206 networking & telecommunications, 02 engineering and technology, Power factor, AC power, Automotive engineering, Power (physics), law.invention, symbols.namesake, Cogeneration, law, 0202 electrical engineering, electronic engineering, information engineering, Stirling cycle, symbols, Carnot cycle

Abstract

The Stiling engine converts heat in mechanical energy based on the Stirling cycle, which is the most similar to the Carnot cycle. For that reason, Stirling engine is used in cogeneration process to get electricity from different heat sources. However, few studies were done that integrates the thermodynamic model of the Stirling engine together with the required power electronic systems to connect an electrical generator with a power grid. This paper shows the modeling of the Stirling engine, a DC generator coupled to this engine, the DC-DC converter and the inverter required for connecting the cogeneration system based on Stirling engine to the grid. The synchronization algorithm to connect the inverter to the grid is also explained. The proposed model allows calculating the grid current and voltage, the active and reactive power generated using a Stirling engine as cogeneration system, according to its mechanical and thermodynamic parameters. The Stirling-generator system operates with practically unitary power factor. The aim of this work is to motivate the analysis and use of the Stirling engine in cogeneration.

Published

2019

16. A photovoltaic multi-functional converter with multi-resonant controller coefficients improved by a genetic algorithm

Author

Raymundo Cordero Garcia, Luan A. Lucas, and Moacyr A. G. de Brito

Subjects

Computer science, business.industry, Control theory, Harmonics, Distributed generation, Waveform, AC power, business, Active filter, Reference frame, Power (physics)

Abstract

The present work deals with the simulation of a photovoltaic distributed generation system at the micro generation level, using a DC-AC power converter responsible for injecting active power into the grid and acting as a shunt active power filter, mitigating the harmonics of local nonlinear loads. For this, the system has a reference current generator that employs an algorithm based on the synchronous reference frame. The current reference has a distorted portion, corresponding to the distortion power of the nonlinear load added to the active portion to be injected to the grid. A PI plus multi-resonant controller are inserted to reproduce correctly the current reference. In order to enhance stability and waveform quality a genetic algorithm is adopted to find the best gains for the controllers. Simulations throught MatLab/Simulink® are presented to confirm the feasibility of the proposal.

Published

2019

17. Analysis of Digital Current Controllers for Single- Phase Grid-Connected Photovoltaic Inverters

Author

Lucas Monteiro, Moacyr A. G. de Brito, Luan A. Lucas, and Raymundo Cordero Garcia

Subjects

Total harmonic distortion, Model predictive control, Amplitude, Control theory, Computer science, Photovoltaic system, MATLAB, Grid, computer, computer.programming_language, Power (physics)

Abstract

This paper presents comparative analysis among digital current controllers for single-phase grid connected photovoltaic inverters with L-filter. The considered controllers are proportional and integral controller (PI), proportional and integral plus resonant controller (PI+Res), deadbeat control (DBC) and model predictive control (MPC). The considered parameters for analysis are the total harmonic distortion (THD) for the injected grid current, phase and amplitude error in steady-state and during power reference step change. Simulations were made through Matlab/Simulink® platform to guide novel projects.

Published

2019

18. Simplification of the Acquisition System for Sensored Vector Control using Resolver Sensor based on FDM and Current Synchronous Sampling

Author

Raymundo Cordero Garcia, Vitoria dos Santos Fahed, Igor Esdras Silva Ono, João Onofre Pereira Pinto, and Moacyr A. G. de Brito

Subjects

Vector control, Angular displacement, Computer science, 020208 electrical & electronic engineering, 010401 analytical chemistry, 02 engineering and technology, 01 natural sciences, Multiplexing, 0104 chemical sciences, Frequency-division multiplexing, Motor drive, Sampling (signal processing), Harmonics, Resolver, 0202 electrical engineering, electronic engineering, information engineering, Electronic engineering

Abstract

Simplification in the acquisition system allows increasing the robustness and the sampling frequency of a motor drive system. Frequency domain multiplexing (FDM) allows reducing the number of signals to be digitized in vector control, simplifying the analog-to-digital system in a motor drive. Nonetheless, the required demultiplexing process is still an open question. This paper proposes a simple demultiplexing technique based on synchronous current sampling. The triangular carrier used in modulation and the resolver excitation signal are synchronized, so that the valley of the carrier happens when the resolver outputs are equal to zero. Thus, the demultiplexed current signals are equal to the samples obtained through synchronous current sampling, eliminating the harmonics in the current signals. The estimated current signals and an angle tracking observer are used to estimate the angular position without the previous demultiplexing of the resolver output signals. Simulation and experimental results show that the demultiplexing process has high accuracy, rejecting the current harmonics and gives a good estimation of the angular position.

Published

2018

19. RBF Neural Networks Modeling Methodology Compared to Non-Parametric Auto-Associative Models for Condition Monitoring Applications

Author

Luigi Galotto, João Onofre Pereira Pinto, Marco Aurelio Duarte Alves, Raymundo Cordero Garcia, Herbert Teixeira, and Mario Cesar Mello Massa de Campos

Subjects

021103 operations research, Artificial neural network, Mean squared error, Computer science, 0211 other engineering and technologies, Nonparametric statistics, Condition monitoring, 02 engineering and technology, computer.software_genre, 020401 chemical engineering, Robustness (computer science), Redundancy (engineering), Radial basis function, Data mining, 0204 chemical engineering, computer, Associative property

Abstract

This work presents the use of radial basis function artificial neural network to estimate the sensors readings, exploring the analytical redundancy via auto association. However, in order to guarantee good performance of the network the training and optimization process was modified. In the conventional training algorithm, although the stop criteria, such as summed squared error, is reached, one or more of the individual performance metrics, including: i) accuracy; ii) robustness; iii) spillover and iv) filtering matrix of the neural network may not be satisfactory. The paper describes the proposed algorithm including all the mathematical foundation. A dataset of a petroleum refinery is used to train a RBF network using the conventional and the modified algorithm and the performance of both will be evaluated. Furthermore, AAKR model is used to the same dataset. Finally, a comparison study of the developed models will be done for each of the performance metrics, as well as for the overall effectiveness in order to demonstrate the superiority of the proposed approach.

Published

2018

20. Angular Position Tracking Controller for PMSM Based on Compensated Non- Linearities and Type-Ii Internal Model Control

Author

Joao Onpfre Pereira Pinto, Vitoria dos Santos Fahed, Raymundo Cordero Garcia, and Igor Esdras Silva Ono

Subjects

Vector control, Angular displacement, Stator, Computer science, 020208 electrical & electronic engineering, Internal model, 02 engineering and technology, Tracking (particle physics), Term (time), law.invention, Quantitative Biology::Subcellular Processes, Position (vector), law, Control theory, 0202 electrical engineering, electronic engineering, information engineering

Abstract

This paper proposes a tracking angular position controller for Permanent Magnet Synchronous Motor (PMSM). Instead of linearizing the dq model of the motor, the proposed approach compensates the non-linear terms of the model in order to use robust linear control techniques. Thus, the control laws are composed by two components: the first term compensate the nonlinearities of the dq model, while the second component is defined by linear controllers to get the desired position and d-axis stator current. A type-II internal model controller is used to control the angular position on the motor. Hence, the motor can track even sinusoidal position references. Simulation and experimental results prove the accuracy of the proposed tracking controller.

Published

2018

21. Angular Position Control of Permanent Magnet Synchronous Motor Using Compensation of the Nonlinearities of the DQ-Model

Author

Raymundo Cordero Garcia and João Onofre Pereira Pinto

Subjects

Imagination, Computer science, Angular displacement, Stator, media_common.quotation_subject, DC motor, law.invention, Nonlinear system, Robustness (computer science), Control theory, law, Linearization, Synchronous motor, media_common

Abstract

This paper proposes a simple nonlinear technique to control the angular position and d-axis stator current of a permanent magnet synchronous motor. Instead of making a linearization according to an operation point, the control laws, i.e., the dq-axis stator voltages are composed by two terms. The first one is to compensate the nonlinearities of the PMSM. The second component of the control law is determined by a linear controller to get the angular position. Thus, the design of the controller becomes easier. Simulation results prove the accuracy and robustness of the proposed angular position controller.

Published

2018

22. Estimation of Angular Speed and Park Matrix from Resolver Position Sensor Signals without Using Trigonometric Functions

Author

Alex Butinhol Belini, João Onofre Pereira Pinto, and Raymundo Cordero Garcia

Subjects

Matrix (mathematics), Transformation matrix, Computer science, Angular displacement, Resolver, Trigonometric functions, Angular velocity, Trigonometry, Algorithm, Position sensor

Abstract

Resolver is an angular position sensor widely used in electric/hybrid vehicles and robotics. However, estimating the angular position and speed from resolver outputs is as difficult task. Most algorithms in literature use trigonometric functions to estimate the angular position. However, these functions are difficult to implement, especially in FPGAs. On the other hand, in speed vector control of three-phase motors, the angular position is only used to estimate the mechanical speed and Park transformation matrix. This paper presents a simple technique to get the mechanical speed and Park matrix without calculating trigonometric functions and without estimating directly the angular position. Filtering and synchronous demodulation allows obtaining the sine and cosine of the angular position, while the compensation of the delay produced by filtering and the estimation of the Park matrix are done using simple trigonometric properties and taking advantage that the number of pole pairs is an integer number. Experimental results show the accuracy of the proposed approach.

Published

2018

23. TYPE-III RESOLVER-TO-DIGITAL CONVERTER USING SYNCHRONOUS DEMODULATION

Author

Marcio Afoso Soleira Grassi, João Onofre Pereira Pinto, Edson Antonio Batista, and Raymundo Cordero Garcia

Subjects

Computer science, Resolver, Electronic engineering, Demodulation, Digital converter

Published

2018

24. Simplified educational platform for SVPWM control of a two-level three-phase inverter using Matlab GUI and FPGA

Author

Igor Esdras Silva Ono, Raymundo Cordero Garcia, Vitoria dos Santos Fahed, and João Onofre Pereira Pinto

Subjects

Serial communication, business.industry, Computer science, 020208 electrical & electronic engineering, 05 social sciences, Modulation index, 050301 education, 02 engineering and technology, Duty cycle, ComputingMilieux_COMPUTERSANDEDUCATION, 0202 electrical engineering, electronic engineering, information engineering, Electronic engineering, Inverter, business, MATLAB, Field-programmable gate array, 0503 education, computer, Pulse-width modulation, Graphical user interface, computer.programming_language

Abstract

Space Vector Pulse Width Modulation (SVPWM) is widely used in three-phase inverters. Besides, Field Programmable Gate Array (FPGA) is a powerful tool in the development of digital controllers applied to power electronics. However, the teaching of these topics for undergraduate and postgraduate students is a difficult task. For this reason, this paper presents a new educational platform based on the integration of a Graphical User Interface (GUI) and FPGA for the didactic teaching of SVPWM. The user defines the DC voltage source of the inverter, the magnitude and angle of the reference space vector in the GUI. As a result, the GUI shows the modulation index, working sector, duty cycle and the switching pulses in each phase. Simultaneously, the results of these calculations are sent to the FPGA through serial communication. Thus, the switching patterns are also generated in the FPGA in real time, which can be used for experimental tests. These experimental tests show that the pulses generated for each phase by the FPGA and the GUI are equivalent. Therefore, the proposed didactic platform helps in the teaching process and motivates the use and research of both SVPWM algorithms and FPGAs for undergraduate and postgraduate students.

Published

2017

25. Design of a MIMO IMC-TS fuzzy speed controller for PMSM

Author

João Onofre Pereira Pinto, Edson Antonio Batista, Luigi Galotto, and Raymundo Cordero Garcia

Subjects

Electronic speed control, Computer science, Stator, 020208 electrical & electronic engineering, 05 social sciences, MIMO, Internal model, 02 engineering and technology, Fuzzy logic, law.invention, Set (abstract data type), Computer Science::Systems and Control, Control theory, law, 0202 electrical engineering, electronic engineering, information engineering, 0501 psychology and cognitive sciences, Representation (mathematics), 050107 human factors

Abstract

This paper presents the design of a Fuzzy speed controller for a permanent magnet synchronous motor (PMSM), based on a MIMO model of the motor, internal model controller (IMC) and Takagi-Sugeno Fuzzy modeling technique. The outputs of the MIMO of the PMSMl are the d-axis stator current and the mechanical speed, which are required to control the speed of PMSM below and above its nominal speed. A MIMO model allows a better representation of the influence between these outputs signals. Takagi-Sugeno Fuzzy controllers and internal model controllers allows reducing the steady-state error. Linear matrix inequalities were used to get the local controllers and set the dynamics of the close-loop plant. Simulation and experimental tests using hardware-in-the-loop prove the accuracy of the proposed controller, even considering variation in the motor parameters.

Published

2017

26. Implementation of quadric perceptron with hardlims activation function in a FPGA for nonlinear pattern classification

Author

João Onofre Pereira Pinto, Walter Issamu Suemitsu, Raymundo Cordero Garcia, and A. M. Soares

Subjects

Normalization (statistics), Quadric, Artificial neural network, Computer science, business.industry, Computer Science::Neural and Evolutionary Computation, Activation function, Pattern recognition, Sigmoid function, Perceptron, Nonlinear system, ComputingMethodologies_PATTERNRECOGNITION, Quadratic equation, Multilayer perceptron, Decision boundary, Artificial intelligence, business

Abstract

This paper deals with the design and implementation of an artificial neural network for pattern classification in the FPGA EP2C20F484C7. A perceptron with quadratic decision boundary is used as nonlinear classification system, but using a hardlims as activation function, instead of a sigmoid function. The training algorithm is similar to the used in conventional perceptron. The elimination of the sigmoid function makes simpler the implementation of quadratic perceptrons. As the mentioned FPGA does not do neither float-point nor fixed-point multiplications, the synaptic weights were normalized to integers. The proposed quadratic perceptron is tested in a set of classification problems and compared with multilayer perceptron. Example of experimental implementation of the proposed classification system is shown, including parameters about computational cost.

Published

2013

27. Um novo algoritmo SVPWM simplificado baseado em sinal portador modificada

Author

Raymundo Cordero Garcia and João Onofre Pereira Pinto

Subjects

Carrier signal, Algoritmos, Computer science, Mode (statistics), space vector pulse width modulation, triangular carrier signal, Computer Science Applications, Modulação de Pulso (Eletrônica), undermodulation, Pulse Modulation (Electronics), Control and Systems Engineering, Control theory, Inverter, Electrical and Electronic Engineering, Overmodulation, Conversores de Corrente Elétrica, Electric Current Converters, Two-level three-phase inverter, Field-programmable gate array, Algorithm, Pulse-width modulation, Algorithms, overmodulation, Voltage, Operation

Abstract

Este artigo apresenta um algoritmo simplificado da modulação por largura de pulso por vetores espaciais (SVPWM) para um inversor trifásico de dois níveis, o qual pode operar em submodulação e sobremodulação. Em outras simplificações achadas na literatura, as tensões de referência são modificadas e comparadas com um portador triangular para estimar os estados de comutação do inversor. Não obstante, este artigo propõe a modificação do portador, em lugar das referências. Este procedimento reduz o número de operações matemáticas e aumenta a velocidade de execução do algoritmo SVPWM em DSPs ou FPGAs. As ondas de referência são senoidais, ainda no modo de sobremodulação. Resultados de simulação e experimentais demonstram que a simplificação proposta produz o mesmo padrão de chaveamento que o SVPWM convencional, é mais simples e rápida que outras simplificações. ABSTRACT - This paper presents a simplified algorithm of space vector pulse width modulation (SVPWM) for a two-level three-phase inverter, which can operate in undermodulation and overmodulation modes. In other simplifications founded in literature, the reference voltages are modified and compared with a triangular carrier to estimate the switching states of the inverter. However, this paper proposes the modification of the carrier signal instead of the references. This procedure reduces the number of mathematical operations and increases the execution speed of SVPWM algorithm in DSPs or FPGAs. The reference voltages are sinusoidal, even for overmodulation mode. Simulation and experimental results proves that the proposed simplification produces the same switching patterns than conventional SVPWM, is simpler and is faster than other simplifications.

Published

2011

28. Application of Model Predictive Control in a Resolver-to-Digital Converter

Author

Edson Antonio Batista, Cristiano Quevedo Andrea, Marcio Afonso Soleira Grassi, Thyago Estrabis, and Raymundo Cordero Garcia

Subjects

010302 applied physics, Computer science, Angular displacement, 020208 electrical & electronic engineering, Predictive controller, 02 engineering and technology, 01 natural sciences, Model predictive control, Robustness (computer science), Control theory, Resolver, 0103 physical sciences, 0202 electrical engineering, electronic engineering, information engineering, Demodulation, Digital converter

Abstract

A resolver is an angular position sensor used in applications that demands robustness and reliability, such as electric vehicles. However, getting the angular position from resolver output signals is a difficult task, and many algorithms were proposed to achieve that task. This paper describes the application of model predictive control (MPC) to get the angular position from resolver signals. Synchronous demodulation is used to get the envelopes of the resolver outputs and get the estimation error. The structure of the conventional model predictive controller was modified to be used as an angle tracking observer (ATO). Simulations show the performance of the proposed approach. According to the bibliographic review of the authors, it is the first time that model predictive control is applied as an observer to get the angular position from resolver signals.