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Artigos de revistas sobre o tema "Quasi-LPV Systems"

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Publicado: 1 de junho de 2024

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1

Pérez-Estrada, A. J., G. L. Osorio-Gordillo, M. Darouach e V. H. Olivares-Peregrino. "Generalized dynamic observer design for quasi-LPV systems". at - Automatisierungstechnik 66, n.º 3 (26 de março de 2018): 225–33. http://dx.doi.org/10.1515/auto-2017-0060.

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Abstract This paper presents a new generalized dynamic observer (GDO) for quasi-linear parameter varying (LPV) systems. It generalises the structures of the proportional observer (PO) and proportional integral observer (PIO). The design of the GDO is derived from the solution of linear matrix inequalities (LMIs) and the solution of the algebraic constraints obtained from the estimation error analysis. The efficiency of the proposed approach is illustrated by a numerical example.
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2

Lu, Yaohui, e Yaman Arkun. "Quasi-Min-Max MPC algorithms for LPV systems". Automatica 36, n.º 4 (abril de 2000): 527–40. http://dx.doi.org/10.1016/s0005-1098(99)00176-4.

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3

Grimble, M. J., Pawel Majecki e M. R. Katebi. "Extended NGMV Predictive Control of Quasi-LPV Systems". IFAC-PapersOnLine 50, n.º 1 (julho de 2017): 4101–7. http://dx.doi.org/10.1016/j.ifacol.2017.08.795.

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4

Robles, Ruben, Antonio Sala e Miguel Bernal. "Performance-oriented quasi-LPV modeling of nonlinear systems". International Journal of Robust and Nonlinear Control 29, n.º 5 (21 de dezembro de 2018): 1230–48. http://dx.doi.org/10.1002/rnc.4444.

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5

Wang, Xiao Ming, Alois Steiner e Jan Fiala. "Linear Parameter-Varying Modeling of Electric Vehicle Air Conditioning System". Applied Mechanics and Materials 148-149 (dezembro de 2011): 318–25. http://dx.doi.org/10.4028/www.scientific.net/amm.148-149.318.

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This article presents the approach of quasi LPV (Linear Parameter-Varying) modeling techniques for an air conditioning system of an electric vehicle. Vehicle air conditioning systems are strongly non-linear systems and it is a challenging task to get a precise real time model for control purposes. Therefore, an LPV method is first introduced to estimate the air conditioning system. Experimental results show that the LPV model delivers a very high accuracy for the COP (Coefficient Of Performance) estimation, that can’t be reached by traditional identification methods. Some discussion about the model structure and its application are presented and a non-linear LPV model structure similar to the Hammerstein structure is proposed.
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6

Polat, İ., İ. E. Köse e E. Eşkinat. "Dynamic output feedback control of quasi-LPV mechanical systems". IET Control Theory & Applications 1, n.º 4 (1 de julho de 2007): 1114–21. http://dx.doi.org/10.1049/iet-cta:20060326.

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7

Oehlschlägel, Thimo, Christian Heise, Stephan Theil e Thomas Steffen. "Stability Analysis of Closed Loops of non-linear Systems and LPV Controllers designed using approximated Quasi-LPV Systems". IFAC Proceedings Volumes 45, n.º 13 (2012): 349–54. http://dx.doi.org/10.3182/20120620-3-dk-2025.00165.

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8

Coutinho, Pedro H. S., Márcia L. C. Peixoto, Miguel Bernal, Anh-Tu Nguyen e Reinaldo M. Palhares. "Local Sampled-Data Gain-Scheduling Control of quasi-LPV Systems". IFAC-PapersOnLine 54, n.º 4 (2021): 86–91. http://dx.doi.org/10.1016/j.ifacol.2021.10.015.

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9

Huang, Hua, De Feng He e Qiu Xia Chen. "Quasi-min-max dynamic output feedback MPC for LPV systems". International Journal of System Control and Information Processing 1, n.º 3 (2014): 233. http://dx.doi.org/10.1504/ijscip.2014.059675.

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10

Arezki, H., A. Alessandri e A. Zemouche. "Robust Moving-Horizon Estimation for Quasi-LPV Discrete-Time Systems*". IFAC-PapersOnLine 56, n.º 2 (2023): 6771–76. http://dx.doi.org/10.1016/j.ifacol.2023.10.384.

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11

Machala, Dawid, Simona Dobre, Marie Albisser, Floriane Collin e Marion Gilson. "Quasi-LPV modelling of a projectile’s behaviour in flight". IFAC-PapersOnLine 51, n.º 15 (2018): 1080–85. http://dx.doi.org/10.1016/j.ifacol.2018.09.050.

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12

Ding, Baocang, Xubin Ping e Hongguang Pan. "On dynamic output feedback robust MPC for constrained quasi-LPV systems". International Journal of Control 86, n.º 12 (dezembro de 2013): 2215–27. http://dx.doi.org/10.1080/00207179.2013.809796.

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13

Pérez-Estrada, A. J., G. L. Osorio-Gordillo, M. Darouach, M. Alma e V. H. Olivares-Peregrino. "Generalized dynamic observers for quasi-LPV systems with unmeasurable scheduling functions". International Journal of Robust and Nonlinear Control 28, n.º 17 (27 de agosto de 2018): 5262–78. http://dx.doi.org/10.1002/rnc.4309.

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14

Grimble, Mike J., e Pawel Majecki. "Observer Based Restricted Structure Generalized Predictive Control for quasi-LPV Nonlinear Systems". IFAC-PapersOnLine 53, n.º 2 (2020): 4264–71. http://dx.doi.org/10.1016/j.ifacol.2020.12.2480.

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15

Alessandri, A., M. Zasadzinski e A. Zemouche. "Optimistic vs Pessimistic Moving-Horizon Estimation for Quasi–LPV Discrete-Time Systems". IFAC-PapersOnLine 53, n.º 2 (2020): 5004–9. http://dx.doi.org/10.1016/j.ifacol.2020.12.1096.

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16

Meng Zhao, Canchen Jiang, Xiaoming Tang e Minghong She. "Interpolation Model Predictive Control of Nonlinear Systems Described by Quasi-LPV Model". Automatic Control and Computer Sciences 52, n.º 5 (setembro de 2018): 354–64. http://dx.doi.org/10.3103/s0146411618050085.

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17

Coutinho, Pedro H. S., Márcia L. C. Peixoto, Iury Bessa e Reinaldo Martinez Palhares. "Dynamic event-triggered gain-scheduling control of discrete-time quasi-LPV systems". Automatica 141 (julho de 2022): 110292. http://dx.doi.org/10.1016/j.automatica.2022.110292.

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18

Dehak, Amine, Anh-Tu Nguyen, Antoine Dequidt, Laurent Vermeiren e Michel Dambrine. "A Reduced-Complexity Polytopic Control Approach for Uncertain quasi-LPV Descriptor Systems". IFAC-PapersOnLine 56, n.º 2 (2023): 2176–81. http://dx.doi.org/10.1016/j.ifacol.2023.10.1124.

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19

López-Estrada, Francisco-Ronay, Damiano Rotondo e Guillermo Valencia-Palomo. "A Review of Convex Approaches for Control, Observation and Safety of Linear Parameter Varying and Takagi-Sugeno Systems". Processes 7, n.º 11 (4 de novembro de 2019): 814. http://dx.doi.org/10.3390/pr7110814.

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This paper provides a review about the concept of convex systems based on Takagi-Sugeno, linear parameter varying (LPV) and quasi-LPV modeling. These paradigms are capable of hiding the nonlinearities by means of an equivalent description which uses a set of linear models interpolated by appropriately defined weighing functions. Convex systems have become very popular since they allow applying extended linear techniques based on linear matrix inequalities (LMIs) to complex nonlinear systems. This survey aims at providing the reader with a significant overview of the existing LMI-based techniques for convex systems in the fields of control, observation and safety. Firstly, a detailed review of stability, feedback, tracking and model predictive control (MPC) convex controllers is considered. Secondly, the problem of state estimation is addressed through the design of proportional, proportional-integral, unknown input and descriptor observers. Finally, safety of convex systems is discussed by describing popular techniques for fault diagnosis and fault tolerant control (FTC).
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20

Cisneros, Pablo S. G., Adwait Datar, Patrick Göttsch e Herbert Werner. "Data-Driven quasi-LPV Model Predictive Control Using Koopman Operator Techniques". IFAC-PapersOnLine 53, n.º 2 (2020): 6062–68. http://dx.doi.org/10.1016/j.ifacol.2020.12.1676.

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21

Cisneros, Pablo S. G., e Herbert Werner. "Wide Range Stabilization of a Pendubot using quasi-LPV Predictive Control". IFAC-PapersOnLine 52, n.º 28 (2019): 164–69. http://dx.doi.org/10.1016/j.ifacol.2019.12.367.

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22

Cisneros, Pablo S. G., Aadithyan Sridharan e Herbert Werner. "Constrained Predictive Control of a Robotic Manipulator using quasi-LPV Representations". IFAC-PapersOnLine 51, n.º 26 (2018): 118–23. http://dx.doi.org/10.1016/j.ifacol.2018.11.158.

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23

Ping, Xubin, e Ning Sun. "Dynamic Output Feedback Robust Model Predictive Control via Zonotopic Set-Membership Estimation for Constrained Quasi-LPV Systems". Journal of Applied Mathematics 2015 (2015): 1–12. http://dx.doi.org/10.1155/2015/875850.

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For the quasi-linear parameter varying (quasi-LPV) system with bounded disturbance, a synthesis approach of dynamic output feedback robust model predictive control (OFRMPC) is investigated. The estimation error set is represented by a zonotope and refreshed by the zonotopic set-membership estimation method. By properly refreshing the estimation error set online, the bounds of true state at the next sampling time can be obtained. Furthermore, the feasibility of the main optimization problem at the next sampling time can be determined at the current time. A numerical example is given to illustrate the effectiveness of the approach.
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24

Degtyarev, G. L., R. N. Faizutdinov e I. O. Spiridonov. "Multiobjective Robust Controller Synthesis for Nonlinear Mechanical System". Mekhatronika, Avtomatizatsiya, Upravlenie 19, n.º 11 (8 de novembro de 2018): 691–98. http://dx.doi.org/10.17587/mau.19.691-698.

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In the paper multiobjective robust controller synthesis problem for nonlinear mechanical system described by Lagrange’s equations of the second kind is considered. Such tasks have numerous practical applications, for example in controller design of robotic systems and gyro-stabilized platforms. In practice, we often have to use uncertain mathematical plant models in controller design. Therefore, ensuring robustness in presence of parameters perturbations and unknown external disturbances is an important requirement for designed systems. Much of modern robust control theory is linear. When the actual system exhibits nonlinear behavior, nonlinearities are usually included in the uncertainty set of the plant. A disadvantage of this approach is that resulting controllers may be too conservative especially when nonlinearities are significant. The nonlinear H∞ optimal control theory developed on the basis of differential game theory is a natural extension of the linear robust control theory. Nonlinear theory methods ensure robust stability of designed control systems. However, to determine nonlinear H∞-control law, the partial differential equation have to be solved which is a rather complicated task. In addition, it is difficult to ensure robust performance of controlled processes when using this method. In this paper, methods of linear parameter-varying (LPV) systems are used to synthesize robust control law. It is shown, that Lagrange system may be adequately represented in the form of quasi-LPV model. From the computational point of view, the synthesis procedure is reduced to convex optimization techniques under constraints expressed in the form of linear matrix inequalities (LMIs). Measured parameters are incorporated in the control law, thus ensuring continuous adjustment of the controller parameters to the current plant dynamics and better performance of control processes in comparison with H∞-regulators. Furthermore, the use of the LMIs allows to take into account the transient performance requirements in the controller synthesis. Since the quasi-LPV system depends continuously on the parameter vector, the LMI system is infinite-dimensional. This infinitedimensional system is reduced to a finite set of LMIs by introducing a polytopic LPV representation. The example of multiobjective robust control synthesis for electro-optical device’s line of sight pointing and stabilization system suspended in two-axes inertially stabilized platform is given.
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25

Coutinho, Pedro Henrique Silva, e Reinaldo Martínez Palhares. "Dynamic periodic event-triggered gain-scheduling control co-design for quasi-LPV systems". Nonlinear Analysis: Hybrid Systems 41 (agosto de 2021): 101044. http://dx.doi.org/10.1016/j.nahs.2021.101044.

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26

Rahmanian, Farnoosh, e Mohammad Hassan Asemani. "Quasi-LPV positive observer-based control of closed-loop deep brain stimulation systems". Biomedical Signal Processing and Control 86 (setembro de 2023): 105238. http://dx.doi.org/10.1016/j.bspc.2023.105238.

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27

Goyal, Jitendra Kumar, Shubham Aggarwal, Sandip Ghosh, Shyam Kamal e Pawel Dworak. "Quasi‐LPV PI control of TRMS subject to actuator saturation". IET Control Theory & Applications 14, n.º 19 (dezembro de 2020): 3157–67. http://dx.doi.org/10.1049/iet-cta.2020.0361.

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28

Kim, Tae-Hyoung, e Ho-Woon Lee. "Quasi-min-max output-feedback model predictive control for LPV systems with input saturation". International Journal of Control, Automation and Systems 15, n.º 3 (22 de maio de 2017): 1069–76. http://dx.doi.org/10.1007/s12555-016-0378-y.

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29

Bianchi, F. D., R. J. Mantz e C. F. Christiansen. "Gain scheduling control of variable-speed wind energy conversion systems using quasi-LPV models". Control Engineering Practice 13, n.º 2 (fevereiro de 2005): 247–55. http://dx.doi.org/10.1016/j.conengprac.2004.03.006.

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30

Park, Jee-Hun, Tae-Hyoung Kim e Toshiharu Sugie. "Output feedback model predictive control for LPV systems based on quasi-min–max algorithm". Automatica 47, n.º 9 (setembro de 2011): 2052–58. http://dx.doi.org/10.1016/j.automatica.2011.06.015.

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31

Cisneros, Pablo Gonzalez, e Herbert Werner. "Fast Nonlinear MPC for Reference Tracking Subject to Nonlinear Constraints via Quasi-LPV Representations". IFAC-PapersOnLine 50, n.º 1 (julho de 2017): 11601–6. http://dx.doi.org/10.1016/j.ifacol.2017.08.1650.

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32

Hu, Jianchen, e Baocang Ding. "An off-line output feedback MPC strategy for nonlinear systems represented by quasi-LPV model". IFAC-PapersOnLine 51, n.º 20 (2018): 66–71. http://dx.doi.org/10.1016/j.ifacol.2018.10.176.

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33

Rotondo, Damiano, Fatiha Nejjari e Vicenç Puig. "Quasi-LPV modeling, identification and control of a twin rotor MIMO system". Control Engineering Practice 21, n.º 6 (junho de 2013): 829–46. http://dx.doi.org/10.1016/j.conengprac.2013.02.004.

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34

Xiong, Junfeng, Decai Li, Yuqing He, Feng Gu e Jianda Han. "Active Quasi-LPV Modeling and Identification for a Water-Jet Propulsion USV: An Experimental Study". IFAC-PapersOnLine 48, n.º 28 (2015): 1359–64. http://dx.doi.org/10.1016/j.ifacol.2015.12.321.

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35

Su, Yang, e Kok Kiong Tan. "Comments on “Output feedback model predictive control for LPV systems based on quasi-min–max algorithm”". Automatica 48, n.º 9 (setembro de 2012): 2385. http://dx.doi.org/10.1016/j.automatica.2012.06.100.

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36

Fouka, Majda, Chouki Sentouh e Jean-Christophe Popieul. "Quasi-LPV Interconnected Observer Design for Full Vehicle Dynamics Estimation With Hardware Experiments". IEEE/ASME Transactions on Mechatronics 26, n.º 4 (agosto de 2021): 1763–72. http://dx.doi.org/10.1109/tmech.2021.3074743.

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37

Rotondo, Damiano, Fatiha Nejjari e Vicenç Puig. "Robust Quasi–LPV Model Reference FTC of a Quadrotor Uav Subject to Actuator Faults". International Journal of Applied Mathematics and Computer Science 25, n.º 1 (1 de março de 2015): 7–22. http://dx.doi.org/10.1515/amcs-2015-0001.

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Abstract A solution for fault tolerant control (FTC) of a quadrotor unmanned aerial vehicle (UAV) is proposed. It relies on model reference-based control, where a reference model generates the desired trajectory. Depending on the type of reference model used for generating the reference trajectory, and on the assumptions about the availability and uncertainty of fault estimation, different error models are obtained. These error models are suitable for passive FTC, active FTC and hybrid FTC, the latter being able to merge the benefits of active and passive FTC while reducing their respective drawbacks. The controller is generated using results from the robust linear parameter varying (LPV) polytopic framework, where the vector of varying parameters is used to schedule between uncertain linear time invariant (LTI) systems. The design procedure relies on solving a set of linear matrix inequalities (LMIs) in order to achieve regional pole placement and H∞ norm bounding constraints. Simulation results are used to compare the different FTC strategies.
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38

Gómez-Peñate, S., F. R. López-Estrada, G. Valencia-Palomo, D. Rotondo e J. Enríquez-Zárate. "Actuator and sensor fault estimation based on a proportional-integral quasi-LPV observer with inexact scheduling parameters". IFAC-PapersOnLine 52, n.º 28 (2019): 100–105. http://dx.doi.org/10.1016/j.ifacol.2019.12.355.

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39

Ping, Xubin, Bo Qian e Ning Sun. "Dynamic Output Feedback Robust MPC with Input Saturation Based on Zonotopic Set-Membership Estimation". Mathematical Problems in Engineering 2016 (2016): 1–13. http://dx.doi.org/10.1155/2016/5292375.

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For quasi-linear parameter varying (quasi-LPV) systems with bounded disturbance, a synthesis approach of dynamic output feedback robust model predictive control (OFRMPC) with the consideration of input saturation is investigated. The saturated dynamic output feedback controller is represented by a convex hull involving the actual dynamic output controller and an introduced auxiliary controller. By taking both the actual output feedback controller and the auxiliary controller with a parameter-dependent form, the main optimization problem can be formulated as convex optimization. The consideration of input saturation in the main optimization problem reduces the conservatism of dynamic output feedback controller design. The estimation error set and bounded disturbance are represented by zonotopes and refreshed by zonotopic set-membership estimation. Compared with the previous results, the proposed algorithm can not only guarantee the recursive feasibility of the optimization problem, but also improve the control performance at the cost of higher computational burden. A nonlinear continuous stirred tank reactor (CSTR) example is given to illustrate the effectiveness of the approach.
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40

Yassuda, Julio Yuzo, Cristiano Marcos Agulhari e Emerson Ravazzi Pires da Silva. "Sampled-data robust control of a 2-DoF helicopter modeled using a quasi-LPV framework". Control Engineering Practice 145 (abril de 2024): 105870. http://dx.doi.org/10.1016/j.conengprac.2024.105870.

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41

Srinivasarengan, Krishnan, José Ragot, Christophe Aubrun e Didier Maquin. "An adaptive observer design approach for a class of discrete-time nonlinear systems". International Journal of Applied Mathematics and Computer Science 28, n.º 1 (1 de março de 2018): 55–67. http://dx.doi.org/10.2478/amcs-2018-0004.

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AbstractWe consider the problem of joint estimation of states and some constant parameters for a class of nonlinear discrete-time systems. This class contains systems that could be transformed into a quasi-LPV (linear parameter varying) polytopic model in the Takagi-Sugeno (T-S) form. Such systems could have unmeasured premise variables, a case usually overlooked in the observer design literature. We assert that, for such systems in discrete-time, the current literature lacks design strategies for joint state and parameter estimation. To this end, we adapt the existing literature on continuous-time linear systems for joint state and time-varying parameter estimation. We first develop the discrete-time version of this result for linear systems. A Lyapunov approach is used to illustrate stability, and bounds for the estimation error are obtained via the bounded real lemma. We use this result to achieve our objective for a design procedure for a class of nonlinear systems with constant parameters. This results in less conservative conditions and a simplified design procedure. A basic waste water treatment plant simulation example is discussed to illustrate the design procedure.
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42

Mattei, Massimiliano. "An LPV approach to the robust control of a class of quasi-linear propagation processes". Journal of Process Control 14, n.º 6 (setembro de 2004): 651–60. http://dx.doi.org/10.1016/j.jprocont.2004.01.001.

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43

Wei, Xiukun, e Luigi Del Re. "ON PERSISTENT EXCITATION FOR PARAMETER ESTIMATION OF QUASI-LPV SYSTEMS AND ITS APPLICATION IN MODELING OF DIESEL ENGINE TORQUE". IFAC Proceedings Volumes 39, n.º 1 (2006): 517–22. http://dx.doi.org/10.3182/20060329-3-au-2901.00079.

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44

Inoue, Roberto S., Adriano A. G. Siqueira e Marco H. Terra. "Experimental results on the nonlinear∞control via quasi-LPV representation and game theory for wheeled mobile robots". Robotica 27, n.º 4 (julho de 2009): 547–53. http://dx.doi.org/10.1017/s0263574708004931.

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SUMMARYIn this paper, nonlinear dynamic equations of a wheeled mobile robot are described in the state-space form where the parameters are part of the state (angular velocities of the wheels). This representation, known as quasi-linear parameter varying, is useful for control designs based on nonlinear∞approaches. Two nonlinear∞controllers that guarantee induced2-norm, between input (disturbances) and output signals, bounded by an attenuation level γ, are used to control a wheeled mobile robot. These controllers are solved via linear matrix inequalities and algebraic Riccati equation. Experimental results are presented, with a comparative study among these robust control strategies and the standard computed torque, plus proportional-derivative, controller.
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45

Cao, Yong-Yan, e Anke Xue. "Comments on “Quasi-min–max MPC algorithm for LPV systems” by Y. Lu and Y. Arkun, Automatica 36 (2000) 527–540". Automatica 40, n.º 7 (julho de 2004): 1281–82. http://dx.doi.org/10.1016/j.automatica.2003.10.026.

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46

CAO, Y. "Comments on ?Quasi-min?max MPC algorithm for LPV systems? by Y. Lu and Y. Arkun, Automatica 36 (2000) 527$ndash;540". Automatica 40, n.º 7 (julho de 2004): 1281–82. http://dx.doi.org/10.1016/s0005-1098(04)00065-2.

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47

Su, Yang, Kok Kiong Tan e Tong Heng Lee. "Tube based Quasi-min-max Output Feedback MPC for LPV Systems1". IFAC Proceedings Volumes 45, n.º 15 (2012): 186–91. http://dx.doi.org/10.3182/20120710-4-sg-2026.00010.

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48

Lim, Jihoon, Patrick Kirchen e Ryozo Nagamune. "LPV Controller Design for Diesel Engine SCR Aftertreatment Systems based on Quasi-LPV Models". IEEE Control Systems Letters, 2020, 1. http://dx.doi.org/10.1109/lcsys.2020.3046447.

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49

Coutinho, Pedro H. S., Luciano G. Moreira e Reinaldo M. Palhares. "Event‐triggered control of quasi‐LPV systems with communication delays". International Journal of Robust and Nonlinear Control, 27 de julho de 2022. http://dx.doi.org/10.1002/rnc.6304.

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50

Palmeira, Alessandra H. K., João M. Gomes da Silva e Jeferson V. Flores. "Regional stabilization of nonlinear sampled-data control systems: A quasi-LPV approach". European Journal of Control, novembro de 2020. http://dx.doi.org/10.1016/j.ejcon.2020.11.001.

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