32 results on '"Errouissi, Rachid"'
Search Results
2. Hybridization of battery and ultracapacitor for electric vehicle application with dynamic energy management and non-linear state feedback controller
- Author
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Prasanthi, Achikkulath, Shareef, Hussain, Errouissi, Rachid, Asna, Madathodika, and Mohamed, Azah
- Published
- 2022
- Full Text
- View/download PDF
3. Simple Robust PID Tuning for Magnetic Levitation Systems Using Model-free Control and ℋ∞ Control Strategies
- Author
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Wahyudie, Addy, Susilo, Tri Bagus, Nandar, Cuk Supriyadi Ali, Fayez, Sameer, and Errouissi, Rachid
- Published
- 2021
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- View/download PDF
4. Optimization of hybrid energy systems and adaptive energy management for hybrid electric vehicles
- Author
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Prasanthi, Achikkulath, Shareef, Hussain, Asna, Madathodika, Asrul Ibrahim, Ahmad, and Errouissi, Rachid
- Published
- 2021
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5. Disturbance Observer-Based Feedback Linearized Controller for Grid-Forming Four-Leg VSI Supplying Unbalanced and Nonlinear Loads.
- Author
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Stephen, Samantha S., Shareef, Hussain, Errouissi, Rachid, Eslami, Mahdiyeh, and Hashfi, Tuanku Badzlin
- Subjects
IDEAL sources (Electric circuits) ,DISTRIBUTED power generation ,QUALITY standards ,VOLTAGE ,OSCILLATIONS - Abstract
This paper presents the design of a disturbance observer-based controller that regulates the output voltage of three-phase four-leg voltage source inverters (VSIs) deployed for grid-forming operation in Renewable Energy-based Distributed Generation (REDG) Systems. The primary objective of the controller is to provide a symmetric and sinusoidal voltage at the output of the VSI when supplying highly unbalanced and nonlinear loads. The controller employs the feedback linearization (FL) technique and incorporates a disturbance observer (DO) to address a range of disturbances that include oscillations resulting from unbalanced loads, harmonics generated by nonlinear loads, and non-oscillatory disturbances. Notably, the controller adopts a direct control scheme without the need for nested current control loops and does not use any transformation frames. Simulation studies and experimental investigations were conducted to assess the controller's performance under various load conditions, including both linear and nonlinear types, as well as load transients. The findings demonstrate the controller's capability to accurately track references while complying with the IEEE power quality standards for the tested conditions. [ABSTRACT FROM AUTHOR]
- Published
- 2024
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6. Stabilization of artificial gas-lift process using nonlinear predictive generalized minimum variance control
- Author
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Shi, Jing, Al-Durra, Ahmed, Errouissi, Rachid, and Boiko, Igor
- Published
- 2019
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- View/download PDF
7. Design and experimental validation of enhanced adaptive second-order SMC for PMSG-based wind energy conversion system
- Author
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Matraji, Imad, Al-Durra, Ahmed, and Errouissi, Rachid
- Published
- 2018
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8. Direct power control for grid-connected doubly fed induction generator using disturbance observer based control
- Author
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Debouza, Mahdi, Al-Durra, Ahmed, Errouissi, Rachid, and Muyeen, S.M.
- Published
- 2018
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9. Real-Time Implementation and Control of Multi-Source Electric Vehicle Traction Motor under Various Drive Conditions.
- Author
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Prasanthi, Achikkulath, Shareef, Hussain, Errouissi, Rachid, Asna, Madathodika, and Wahyudie, Addy
- Subjects
TRACTION motors ,MOTOR vehicles ,REAL-time control ,ELECTRIC vehicles ,TRAFFIC safety - Abstract
The hybridization of multiple energy sources is crucial for electric vehicles to deliver the same performance as modern fossil fuel-based automobiles. This paper presents a torque and speed control strategy for an electric vehicle DC traction motor by regulating the power flow from two energy sources, namely battery and supercapacitor systems, to resist unpredictable disturbances. A control system with three control loops is applied to regulate the speed of the traction motor. The outer speed control loop is a nonlinear state feedback controller with a disturbance observer, which is capable of handling non-linear systems with unpredictable disturbances. The inner voltage and current control loop are precisely tuned PI controllers. Using an adaptive energy management method that varies depending on the state of charge of the source, the total reference current needed to support the load demand is split between two sources. A laboratory prototype system model is generated, and the performance is analyzed under motoring and regenerative braking conditions. For monitoring and controlling the system, the dSPACE DS1202 real-time simulator is employed. The performance of the proposed control system is evaluated and it is found that the settling time to settle within a tolerance band of 1% is 0.75 s. [ABSTRACT FROM AUTHOR]
- Published
- 2023
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10. Rule-Based Non-Intrusive Load Monitoring Using Steady-State Current Waveform Features.
- Author
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Shareef, Hussain, Asna, Madathodika, Errouissi, Rachid, and Prasanthi, Achikkulath
- Subjects
SET theory ,ENERGY consumption ,PLANT propagation ,ELECTRIC potential measurement - Abstract
Monitoring electricity energy usage can help to reduce power consumption considerably. Among load monitoring techniques, non-intrusive load monitoring (NILM) provides a cost-efficient solution to identify individual load consumption details from the aggregate voltage and current measurements. Existing load monitoring techniques often require large datasets or use complex algorithms to obtain acceptable performance. In this paper, a NILM technique using six non-redundant current waveform features with rule-based set theory (CRuST) is proposed. The architecture consists of an event detection stage followed by preprocessing and framing of the current signal, feature extraction, and finally, the load identification stage. During the event detection stage, a change in connected loads is ascertained using current waveform features. Once an event is detected, the aggregate current is processed and framed to obtain the event-causing load current. From the obtained load current, the six features are extracted. Furthermore, the load identification stage determines the event-causing load, utilizing the features extracted and the appliance model. The results of the CRuST NILM are evaluated using performance metrics for different scenarios, and it is observed to provide more than 96% accuracy for all test cases. The CRuST NILM is also observed to have superior performance compared to the feed-forward back-propagation network model and a few other existing NILM techniques. [ABSTRACT FROM AUTHOR]
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- 2023
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11. Nonlinear predictive controller for a permanent magnet synchronous motor drive
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Errouissi, Rachid and Ouhrouche, Mohand
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- 2010
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12. Disturbance-Observer-Based Feedback Linearization Control for Stabilization and Accurate Voltage Tracking of a DC–DC Boost Converter.
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Errouissi, Rachid, Shareef, Hussain, Viswambharan, Amulya, and Wahyudie, Addy
- Subjects
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DC-to-DC converters , *STATE feedback (Feedback control systems) , *HYPERSONIC planes , *VOLTAGE , *VOLTAGE control , *EQUATIONS of state , *PSYCHOLOGICAL feedback - Abstract
The nonminimum-phase property of the dc–dc boost converter can create difficulties in designing a stable, robust, and fast control for the output voltage. In this article, these difficulties are reduced by modifying the state model of the boost converter in such a way that it behaves like a minimum-phase system. More specifically, the control input entering the state equation for the output voltage is treated as an unknown disturbance to make the relative degree of the system equal the system’s order. As a result, the modified model does not exhibit zero dynamics, so that it can be treated as a minimum-phase system for the control design. The modified model is, then, used to derive a dynamic compensator for the output voltage regulation. More explicitly, the dynamic compensator is designed based on combining linearizing feedback control with a disturbance observer. The latter is employed to compensate for model uncertainties and unknown load with a view to ensure asymptotic regulation under the composite controller. The asymptotic regulation is achieved due to the integral action property characterizing the disturbance observer. More interestingly, after simple algebraic manipulation, it turns out that the composite controller reduces to a dynamic state feedback control plus an antiwindup scheme to mitigate the effect of control saturation during transients. The performance of the proposed controller is verified by experimental tests. The experimental results demonstrate the ability of the proposed controller to achieve good transient and steady-state performances. [ABSTRACT FROM AUTHOR]
- Published
- 2022
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13. Constant Power Load Stabilization in DC Microgrids Using Continuous-Time Model Predictive Control.
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Alidrissi, Youssef, Ouladsine, Radouane, Elmouatamid, Abdellatif, Errouissi, Rachid, and Bakhouya, Mohamed
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MICROGRIDS ,PREDICTION models ,DC-to-DC converters - Abstract
Despite its advantages over its AC counterparts, DC microgrids present a lot of challenges. One of these challenges is the instability issues caused by constant power loads (CPLs). CPLs deteriorate the system's performance due to their incremental negative impedance characteristics. In this paper, a DC microgrid composed of a PV/battery system feeding a pure CPL was considered. A continuous-time model predictive control combined with a disturbance observer was applied to the DC–DC bidirectional converter. The purpose of the composite controller is to address the nonlinearity of the CPL and to maintain the stability of the system in a large operating region under load and PV generation variations. To show the performance of the system, several tests were performed under PV power and CPL power variations. Simulation results show good performance in terms of transient response, optimal tracking, and stability in a large operating region. [ABSTRACT FROM AUTHOR]
- Published
- 2022
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14. Extended high‐gain observer‐based DC‐link voltage regulation in dual‐stage grid‐tied PV system under balanced and unbalanced voltages.
- Author
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Errouissi, Rachid and Al‐Durra, Ahmed
- Abstract
This study presents the design and experimental validation of feedback control along with a high‐gain observer to regulate the DC‐link voltage in dual‐stage grid‐tied photovoltaic (PV) system. In particular, the composite controller is designed to ensure accurate and fast control of the DC‐link voltage in response to abrupt changes in either the delivered active power or grid voltages. The high‐gain observer is employed to estimate the unknown disturbance, which is then cancelled by the feedback controller to ensure asymptotic regulation. Fast disturbance estimation is required to retain the nominal transient response specified under the feedback controller, which mandates using high‐observer gain. However, high‐observer gain magnifies the effect of the measurement noise, which results in poor steady‐state performances. This problem is addressed here by using a non‐linear gain to allow for on‐line adjustment of the observer gain. Specifically, a large observer gain is used during transients to ensure fast disturbance estimation, while a reduced observer gain is employed in the steady‐state regime to mitigate the effect of the measurement noise. Experimental results demonstrated the ability of the proposed controller to achieve accurate control, good transient response, fast disturbance rejection, and negligible sensitivity to the measurement noise. [ABSTRACT FROM AUTHOR]
- Published
- 2020
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15. Membrane‐hydration‐state detection in proton exchange membrane fuel cells using improved ambient‐condition‐based dynamic model.
- Author
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Khan, Saad Saleem, Shareef, Hussain, Bouhaddioui, Chafik, and Errouissi, Rachid
- Subjects
PROTON exchange membrane fuel cells ,HYDRATION ,STANDARD deviations ,DYNAMIC models ,RENEWABLE energy sources ,DEAD loads (Mechanics) - Abstract
Summary: Proton‐exchange‐membrane fuel cells (PEMFCs) are a popular source of alternative energy because of their operational reliability and compactness. This paper presents an improved model to represent the semi‐empirical voltage of PEMFCs to overcome the limitations of existing models. The proposed model considers variations in ambient conditions, such as the ambient temperature and relative humidity, to obtain the accurate output voltage that corresponds to variations in dynamic and static loads. The proposed model was developed by conducting several experiments on the Horizon PEMFC system under normal, humid, and dry ambient conditions. Subsequently, the model parameters corresponding to each case were optimised using the quantum lightning search algorithm (QLSA). Parameters demonstrating significant variations with ambient conditions were finally represented as a function of the ambient temperature and relative humidity via statistical regression analysis. The voltage obtained using the modified model was verified by conducting experiments on both the Horizon and NEXA PEMFC systems by varying the ambient temperature and relative humidity with root mean square error (RMSE) less than 0.5. As observed, the results we obtained using the modified model closely approximated those obtained using PEMFCs under various operating conditions, and in both cases, the PEMFC voltage was observed to vary with the ambient and load conditions. The inherent advantages of the proposed PEMFC model include its ability to determine the membrane‐water content and water pressure inside PEMFCs. The membrane‐water content provides clear indications regarding the occurrence of drying and flooding faults. Under normal conditions, this membrane water content ranges from 11 to 7 for both the Horizon and NEXA PEMFC system. The simulation results suggested using the threshold membrane‐water‐content level as a possible indicator of fault occurrence under extreme ambient conditions. The limits of the said threshold were observed to be useful for fault diagnosis within PEMFC systems. [ABSTRACT FROM AUTHOR]
- Published
- 2020
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16. Disturbance-Observer-Based Control for Dual-Stage Grid-Tied Photovoltaic System Under Unbalanced Grid Voltages.
- Author
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Errouissi, Rachid and Al-Durra, Ahmed
- Subjects
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DC-to-DC converters , *REACTIVE power , *ELECTRIC potential , *ELECTRIC power distribution grids , *CASCADE converters , *VOLTAGE control , *EXPERIMENTAL design - Abstract
This paper presents the design and experimental validation of disturbance observer (DO)-based control for grid-tied photovoltaic (PV) inverters fed by a dc–dc boost converter considering unbalanced grid voltages. The control scheme uses multiples controllers that are developed based on employing DO technique along with a feedback-linearizing (FBL) control. The main controller is designed to regulate the active and reactive powers injected into the grid via controlling the grid-tied inverter. Under unbalanced grid voltages, the active and reactive power is composed of a dc component as well as an ac component that oscillates at twice the grid frequency. Therefore, the unknown perturbation, representing the mismatch between the nominal and actual system, can be treated as a sum of a constant offset and a sinusoidal disturbance. To ensure accurate control of the active/reactive power, a DO is designed to estimate the unknown perturbation, which is then canceled by a FBL control. By considering the control input limitation in the observer synthesis, an antiwindup compensator arises naturally in the control law, which attenuates the effect of the windup phenomenon during control saturation. Moreover, a simplified representation of the DO is proposed to facilitate real-time implementation. The proposed approach for the power control can be used in both balanced and unbalanced systems since it can reject constant and sinusoidal disturbances. Experimental tests were performed to investigate the ability of the proposed control scheme to achieve good transient and steady-state performances. [ABSTRACT FROM AUTHOR]
- Published
- 2019
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- View/download PDF
17. A Novel Control Technique for Grid-Tied Inverters Considering Unbalanced Grid Voltage Conditions and Control Input Saturation.
- Author
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Errouissi, Rachid and Al-Durra, Ahmed
- Abstract
This paper presents a new method to design a current controller for grid-tied inverters under both balanced and unbalanced grid voltage conditions. The proposed controller consists of combining a feedback-output controller with a disturbance observer (DO). The control design is carried out in the $\alpha \beta$ reference frame. Thus, the objective of the composite controller is to ensure that the output of the system tracks a sinusoidal reference signal with zero steady-state error. A feedback controller only cannot achieve a good tracking performance because of the presence of model uncertainties and unknown disturbances. To account for the natural mismatch between the actual system and the mathematical model, the system dynamics are first augmented with an additional state-variable, representing the disturbance, and the feedback controller is designed based on the assumption that the disturbance input is available for feedback. Then, an observer is constructed to estimate the disturbance, which is assumed to be a sine wave oscillating at the grid frequency. Another feature of the DO is its ability to compensate for the effect of the saturation blocks required to limit the control input during transients, leading to improved dynamic performance. Several experimental tests were conducted to verify the effectiveness of the proposed controller, and the results demonstrated its capability to achieve accurate fast stable responses. [ABSTRACT FROM AUTHOR]
- Published
- 2019
- Full Text
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18. Robust Feedback-Linearization Technique for Grid-Tied LCL Filter Systems Using Disturbance Estimation.
- Author
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Al-Durra, Ahmed and Errouissi, Rachid
- Subjects
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ELECTRIC controllers , *ELECTRIC power systems , *UNCERTAINTY , *COMPUTER simulation , *RENEWABLE energy sources - Abstract
In this paper, feedback linearization (FBL) technique together with disturbance observer (DO) approach is proposed to mitigate the effect of the resonant frequency of grid-tied LCL filter systems. The state-feedback control law is employed to achieve stabilization of the LCL filter system under a wide range of resonant frequency variation. The DO is designed to counteract the effect of model uncertainty and unknown disturbance aiming to achieve asymptotic stability under FBL control. Specifically, the observer is designed to estimate an additional input, representing uncertainty and unknown disturbance, from measurable variables. Then, the FBL control utilizes the disturbance estimate to compensate for its effect. An interesting feature of the composite controller is its ability to meet the transient response specifications even in the presence of model uncertainty and external disturbance. The composite controller was implemented for simulation and experimental evaluation, and performance testing. High performance with respect to disturbance rejection and parameter variation has been demonstrated. [ABSTRACT FROM AUTHOR]
- Published
- 2019
- Full Text
- View/download PDF
19. Decoupled PI current controller for grid-tied inverters with improved transient performances.
- Author
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Errouissi, Rachid and Al-Durra, Ahmed
- Subjects
PID controllers ,ELECTRIC power distribution grids ,FEEDBACK control systems ,ELECTRIC power system control ,COMPUTER simulation - Abstract
This study proposes a novel decoupled proportional-integral (PI) current controller for grid-tied inverters. The proposed controller can be viewed as the modification of the existing decoupled PI current controller to include the reference jump in order to achieve nominal performance recovery in response to step changes in the current reference. The modified decoupled PI current controller is derived based on combining feedback-linearisation technique with a disturbance observerbased control approach that belongs to the high-gain observer technique. The key feature of the composite controller is its ability to retain the transient performance specified under the feedback-linearising control, particularly when the control does not saturate. Furthermore, by considering the control saturation in the observer design, an anti-windup scheme arises naturally into the controller, leading to an improved transient performance in the presence of saturation. The effectiveness of the proposed controller was verified by simulation and experimental results. [ABSTRACT FROM AUTHOR]
- Published
- 2019
- Full Text
- View/download PDF
20. Design of PI Controller Together With Active Damping for Grid-Tied LCL-Filter Systems Using Disturbance-Observer-Based Control Approach.
- Author
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Errouissi, Rachid and Al-Durra, Ahmed
- Subjects
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PID controllers , *DAMPING (Mechanics) , *ADAPTIVE control systems , *ELECTRIC power distribution grids , *ELECTRIC filters , *CONVERTERS (Electronics) , *RESONANCE frequency analysis , *ELECTRONIC linearization - Abstract
The main advantage of the LCL filter in grid-tied converters is its ability to achieve a better harmonic mitigation in comparison with L filter. A proportional–integral (PI) regulator can be considered as a good candidate for controlling the LCL-filter system, as it is more convenient for real-time implementation. However, PI controller is not capable of stabilizing the grid-tied LCL -filter system when the resonance frequency of the LCL network is below a certain value that mainly depends on the sampling frequency. Such a problem can be overcome by adding an active damping (AD) to the PI controller. This paper presents the design, implementation, and performance testing of a stable PI current controller for a grid-tied inverter using LCL filter. The design process is based on combining feedback linearization (FBL) technique with a disturbance-observer-based control (DOBC). It turns out that the composite controller, consisting of FBL and DOBC, reduces to a PI current controller associated with a linear state-feedback control that plays the role of an AD. In addition, an antiwindup compensator arises naturally into the controller when considering the limits on the control input. An important feature of the proposed PI current controller is its ability to retain the nominal transient response achieved with state-feedback control even in the presence of model uncertainty and external disturbances. The proposed controller was verified through simulation and experimental tests. The results demonstrated the ability of the controller to provide good transient and steady-state performances. [ABSTRACT FROM AUTHOR]
- Published
- 2018
- Full Text
- View/download PDF
21. Experimental Validation of a Novel PI Speed Controller for AC Motor Drives With Improved Transient Performances.
- Author
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Errouissi, Rachid, Al-Durra, Ahmed, and Muyeen, S. M.
- Subjects
PID controllers -- Design & construction ,MOTOR drives (Electric motors) ,PERMANENT magnet motors ,TRANSIENT responses (Electric circuits) ,TORQUE measurements ,MATHEMATICAL models - Abstract
A proportional–integral (PI) controller is the most frequently used control technique for adjustable speed-motor drives. The main advantage of a PI controller is its ability to ensure zero steady-state error under low-frequency disturbances and model uncertainties as long as the closed-loop system is stable. However, the transient performances, under a PI regulator, are highly dependent on the machine parameters, the external disturbances, and the input constraints. This brief proposes the design process of a novel PI speed controller that is capable of preserving almost the nominal transient performance under the parameter variation and external disturbances such as the load torque. The controller also suppresses the effect of input saturation that may occur because of the armature current limitation. Simulation and experimental tests are carried out to verify the validity of the proposed design process. The results revealed that the proposed PI controller is effective regarding nominal performance recovery and input constraints handling. [ABSTRACT FROM AUTHOR]
- Published
- 2018
- Full Text
- View/download PDF
22. A Novel PI-Type Sliding Surface for PMSG-Based Wind Turbine With Improved Transient Performance.
- Author
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Errouissi, Rachid and Al-Durra, Ahmed
- Subjects
- *
ELECTRONIC linearization , *CONVERTERS (Electronics) - Abstract
This paper presents the design, implementation, and performance testing of integral sliding mode control (ISMC) for a permanent magnet synchronous generator based wind turbine. More specifically, ISMC is combined with a feedback linearization (FBL) technique to recover its transient performance under model uncertainty and external disturbances. In this paper, we simplified the integral sliding surface structure to make it more convenient for real-time implementation. It turns out that the resulting integral sliding surface has a PI-like structure plus an additional part that has the role of preserving the nominal transient performance of the FBL. This key feature of the proposed PI-type sliding surface (PI-type SS) cannot be achieved under the conventional PI-type SS. Simulation and experimental tests are carried out to show the effectiveness of the proposed approach. The results revealed that the proposed PI-type SS is able to remove the steady-state error and retain the nominal transient performance of the FBL despite the presence of model uncertainty. [ABSTRACT FROM AUTHOR]
- Published
- 2018
- Full Text
- View/download PDF
23. Continuous-time model predictive control of a permanent magnet synchronous motor drive with disturbance decoupling.
- Author
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Errouissi, Rachid, Al-Durra, Ahmed, Muyeen, S. M., and Siyu Leng
- Subjects
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PERMANENT magnet motors , *CONTINUOUS time systems , *PREDICTIVE control systems , *SYNCHRONOUS electric motors , *TAYLOR'S series ,MOTOR design & construction - Abstract
The design and the experimental validation of a continuous-time model predictive control (CTMPC) for a permanent magnet synchronous motor (PMSM) drive with disturbance decoupling is discussed. The CTMPC approach uses Taylor series expansion to derive a closed-form solution to the problem of model predictive control even though the system behaviour is described by a non-linear model. This type of controller requires an exact knowledge of the system model to guarantee an accurate prediction of the system behaviour, while the PMSM is usually subjected to model uncertainties and external disturbances such as the load torque. Moreover, in the proposed approach, the predicted speed tracking error is directly used to determine the required voltage command without the need for a cascaded control scheme. As a result, the load torque is seen as unmatched disturbance which makes exact disturbance decoupling more challenging. To overcome such a problem, a non-linear disturbance observer is designed and combined with the CTMPC method to enhance the prediction accuracy under parameter variation and unknown load torque. The feasibility of the proposed approach is experimentally investigated, and good transient and steadystate performances are obtained. [ABSTRACT FROM AUTHOR]
- Published
- 2017
- Full Text
- View/download PDF
24. Offset-Free Direct Power Control of DFIG Under Continuous-Time Model Predictive Control.
- Author
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Errouissi, Rachid, Al-Durra, Ahmed, Muyeen, S. M., Leng, Siyu, and Blaabjerg, Frede
- Subjects
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INDUCTION generators , *CONTINUOUS time models , *PREDICTION models , *TAYLOR'S series , *ROTORS - Abstract
This paper presents a robust continuous-time model predictive direct power control for doubly fed induction generator (DFIG). The proposed approach uses Taylor series expansion to predict the stator current in the synchronous reference frame over a finite time horizon. The predicted stator current is directly used to compute the required rotor voltage in order to minimize the difference between the actual stator currents and their references over the predictive time. However, as the proposed strategy is sensitive to parameter variations and external disturbances, a disturbance observer is embedded into the control loop to remove the steady-state error of the stator current. It turns out that the steady-state and the transient performances can be identified by simple design parameters. In this paper, the reference of the stator current is directly calculated from the desired stator active and reactive powers without encompassing the parameters of the machine itself. Hence, no extra power control loop is required in the control structure to ensure smooth operation of the DFIG. The feasibility of the proposed strategy is verified by the experimental results of the grid-connected DFIG and satisfactory performances are obtained. [ABSTRACT FROM PUBLISHER]
- Published
- 2017
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25. Identification and Estimation for Electric Water Heaters in Direct Load Control Programs.
- Author
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Shad, Mostafa, Momeni, Ahmad, Errouissi, Rachid, Diduch, Chris Peter, Kaye, Mary E., and Chang, Liuchen
- Abstract
PowerShift-Atlantic (PSA) is a pilot project lead by Canadian Maritime utilities that demonstrates direct load control strategies for up to 20 MW of commercial and residential loads for the purpose of balancing the intermittency of renewable generation and supporting demand-side management programs. On the residential side, domestic electric water heaters (DEWHs) form a significant end use class. The ability to accurately estimate and predict the state of individual end use devices allows aggregated control systems to better ensure end-use performance and comfort levels. This paper presents a methodology for estimating and predicting the state of individual DEWHs from models of their thermodynamics and water consumption that are derived under two scenarios: 1) when measurements of both power consumption and water temperature are available; and 2) when only measurements of power consumption are available. The proposed methodology was implemented as part of the PSA pilot project for the DEWH load class to simulate the behavior of the load in presence of the controller and evaluate the performance of the controller. Experimental results show that the model and water usage profile mimic the actual behavior of DEWHs, and can predict the future power consumption when the thermostatic control of a DEWH is interrupted as part of a load control strategy. [ABSTRACT FROM PUBLISHER]
- Published
- 2017
- Full Text
- View/download PDF
26. Design and Implementation of a Nonlinear PI Predictive Controller for a Grid-Tied Photovoltaic Inverter.
- Author
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Errouissi, Rachid, Al-Durra, Ahmed, and Muyeen, S. M.
- Subjects
- *
PHOTOVOLTAIC cell design & construction , *PERFORMANCE of photovoltaic cells , *PREDICTIVE control systems , *NONLINEAR control theory , *PID controllers , *ELECTRIC inverter design & construction , *REACTIVE power - Abstract
This paper presents the design, implementation, and performance testing of a nonlinear proportional-integral (PI) predictive controller for a grid-tied inverter used in photovoltaic systems. A conventional cascade structure is adopted to design the proposed controller, where the outer loop is used to regulate the dc-link voltage, and the inner loop is designed as a current controller for adjusting the active and reactive powers injected into the grid. For each loop, the controller is derived based on combining a continuous-time nonlinear model predictive control and nonlinear disturbance observer techniques. It turns out that the composite controller reduces to a nonlinear PI controller with a predictive term that plays an important role in improving tracking performance. The salient feature of the proposed approach is its ability to approximately preserve the nominal tracking performance during the startup phase. Both simulation and experimental results are provided to demonstrate the effectiveness of the proposed approach in terms of nominal performance recovery, disturbance rejection, and current control. [ABSTRACT FROM AUTHOR]
- Published
- 2017
- Full Text
- View/download PDF
27. Offset-free feedback linearisation control of a three-phase grid-connected photovoltaic system.
- Author
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Errouissi, Rachid, Al-Durra, Ahmed, and Muyeen, S. M.
- Subjects
FEEDBACK control systems ,ELECTRONIC linearization ,THREE-phase alternating currents ,PHOTOVOLTAIC power systems ,CLOSED loop system stability ,DIRECT currents ,ELECTRIC power system stability - Abstract
In this study, a state feedback control law is combined with a disturbance observer to enhance disturbance rejection capability of a grid-connected photovoltaic (PV) inverter. The control law is based on input-output feedback linearisation technique, while the existing disturbance observer is simplified and adopted for the system under investigation. The resulting control law has a proportional-integral (PI)/almost PI-derivative-like structure, which is convenient for real-time implementation. The objective of the proposed approach is to improve the DC-bus voltage regulation, while at the same time control the power exchange between the PV system and the grid. The stability of the closed-loop system under the composite controller is guaranteed by simple design parameters. Both simulation and experimental results show that the proposed method has significant abilities to initiate fast current control and accurate adjustment of the DC-bus voltage under model uncertainty and external disturbance. [ABSTRACT FROM AUTHOR]
- Published
- 2016
- Full Text
- View/download PDF
28. A Novel Predictive Direct Torque Controller for Induction Motor Drives.
- Author
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Ouhrouche, Mohand, Errouissi, Rachid, Trzynadlowski, Andrzej M., Tehrani, Kambiz Arab, and Benzaioua, Ammar
- Subjects
- *
TORQUE control , *INDUCTION motors , *KALMAN filtering , *PREDICTIVE control systems , *RAPID prototyping - Abstract
A predictive direct torque controller (PDTC) for induction motors (IM) is proposed. It combines the direct torque control (DTC) and the predictive control (PC), and uses a predictive switching table to enhance the overall performance of the motor. A new type of PC is adopted for speed regulation with the use of a load torque observer, the torque being considered an unknown perturbation. A Kalman filter (KF) is used for reliable flux estimation. The validity of the proposed controller was experimentally confirmed on a rapid control prototyping station. The obtained results have proven superiority of the proposed control with respect to the speed trajectory tracking, torque and flux dynamic responses, and disturbance rejection. Also, a lower current distortion was observed with PDTC, in comparison with the regular DTC, due to increased mean inverter switching frequency. [ABSTRACT FROM PUBLISHER]
- Published
- 2016
- Full Text
- View/download PDF
29. Robust nonlinear generalised predictive control for a class of uncertain nonlinear systems via an integral sliding mode approach.
- Author
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Errouissi, Rachid, Yang, Jun, Chen, Wen-Hua, and Al-Durra, Ahmed
- Subjects
- *
PREDICTIVE control systems , *ROBUST control , *UNCERTAINTY , *NONLINEAR systems , *TAYLOR'S series - Abstract
In this paper, a robust nonlinear generalised predictive control (GPC) method is proposed by combining an integral sliding mode approach. The composite controller can guarantee zero steady-state error for a class of uncertain nonlinear systems in the presence of both matched and unmatched disturbances. Indeed, it is well known that the traditional GPC based on Taylor series expansion cannot completely reject unknown disturbance and achieve offset-free tracking performance. To deal with this problem, the existing approaches are enhanced by avoiding the use of the disturbance observer and modifying the gain function of the nonlinear integral sliding surface. This modified strategy appears to be more capable of achieving both the disturbance rejection and the nominal prescribed specifications for matched disturbance. Simulation results demonstrate the effectiveness of the proposed approach. [ABSTRACT FROM PUBLISHER]
- Published
- 2016
- Full Text
- View/download PDF
30. Experimental Validation of a Robust Continuous Nonlinear Model Predictive Control Based Grid-Interlinked Photovoltaic Inverter.
- Author
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Errouissi, Rachid, Muyeen, S. M., Al-Durra, Ahmed, and Leng, Siyu
- Subjects
- *
PREDICTIVE control systems , *SMART power grids , *PHOTOVOLTAIC power generation , *CLOSED loop systems , *ELECTRIC power factor - Abstract
This paper presents a robust continuous nonlinear model predictive control (CNMPC) for a grid-connected photovoltaic (PV) inverter system. The objective of the proposed approach is to control the power exchange between the grid and a PV system, while achieving unity power factor operation. As the continuous nonlinear MPC cannot completely remove the steady-state error in the presence of disturbances, the nonlinear disturbance observer-based control is adopted to estimate the offset caused by parametric uncertainties and external perturbation. The stability of the closed-loop system under both nonlinear predictive control and disturbance observer is ensured by convergence of the output-tracking error to the origin. The proposed control strategy is verified using a complete laboratory-scale PV test-bed system consisting of a PV emulator, a boost converter, and a grid-tied inverter. High performance with respect to dc-link voltage tracking, grid current control, disturbance rejection, and unity power factor operation has been demonstrated. [ABSTRACT FROM PUBLISHER]
- Published
- 2016
- Full Text
- View/download PDF
31. Robust Cascaded Nonlinear Predictive Control of a Permanent Magnet Synchronous Motor With Antiwindup Compensator.
- Author
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Errouissi, Rachid, Ouhrouche, Mohand, Chen, Wen-Hua, and Trzynadlowski, Andrzej M.
- Subjects
- *
PERMANENT magnets , *PREDICTIVE control systems , *TAYLOR'S series , *ROBUST control , *DIGITAL signal processing - Abstract
A nonlinear predictive control (NPC) scheme in a cascaded structure for a permanent magnet synchronous motor drive is proposed. Taylor series expansion is used to predict the system response over a finite horizon. As NPC cannot remove completely the steady-state error in the presence of mismatched parameters and external perturbation, a disturbance observer is used to estimate the offset caused by parametric uncertainties and the load torque variation. In addition, input constraints (restrictions on the magnitude) are considered in the synthesis of the disturbance observer, resulting in an equivalent cascaded proportional integral action with an antiwindup compensator. The validity of the proposed controller was tested via simulation and experiment. Excellent results were obtained with respect to the speed trajectory tracking, stability, and disturbance rejection. [ABSTRACT FROM PUBLISHER]
- Published
- 2012
- Full Text
- View/download PDF
32. Robust Nonlinear Predictive Controller for Permanent-Magnet Synchronous Motors With an Optimized Cost Function.
- Author
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Errouissi, Rachid, Ouhrouche, Mohand, Chen, Wen-Hua, and Trzynadlowski, Andrzej M.
- Subjects
- *
ROBUST control , *PERMANENT magnets , *SYNCHRONOUS electric motors , *PERTURBATION theory , *CLOSED loop systems - Abstract
A robust nonlinear predictive controller for permanent-magnet synchronous motors is proposed. The nonlinear predictive control law is formulated by optimizing a novel cost function. A key feature of the proposed control is that it does not require the knowledge of the external perturbation and parameter uncertainties to enhance the robustness. A zero steady-state error is guaranteed by an integral action of the controller. The stability of the closed-loop system is ensured by convergence of the output-tracking error to the origin. The proposed control strategy is verified via simulation and experiment. High performance with respect to speed tracking and current control of the motor has been demonstrated. [ABSTRACT FROM PUBLISHER]
- Published
- 2012
- Full Text
- View/download PDF
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