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Emilia Fridman
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- affiliation: Tel Aviv University, Department of Electrical Engineering and Systems, Israel
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2020 – today
- 2024
- [j188]Rami Katz, Emilia Fridman, Frédéric Mazenc:
Constructive method for averaging-based stability via a delay free transformation. Autom. 163: 111568 (2024) - [j187]Pengfei Wang, Emilia Fridman:
Delayed finite-dimensional observer-based control of 2D linear parabolic PDEs. Autom. 164: 111607 (2024) - [j186]Gaofeng Pan, Yang Zhu, Emilia Fridman, Zhengguang Wu:
Extremum seeking of general nonlinear static maps: A time-delay approach. Autom. 166: 111710 (2024) - [j185]Anton Selivanov, Pengfei Wang, Emilia Fridman:
Guaranteed Cost Boundary Control of the Semilinear Heat Equation. IEEE Control. Syst. Lett. 8: 898-903 (2024) - [j184]Jin Zhang, Hui Zhang, Emilia Fridman:
Delayed feedback implementation of decentralized derivative-dependent control of large-scale systems with input delays and disturbed measurements. Eur. J. Control 79: 101079 (2024) - [j183]Alexander Yu. Aleksandrov, Denis V. Efimov, Emilia Fridman:
On stability of nonlinear homogeneous systems with distributed delays having variable kernels. Syst. Control. Lett. 190: 105853 (2024) - [j182]Lina Pan, Pengfei Wang, Emilia Fridman:
Sampled-data finite-dimensional observer-based control of 1-D Burgers' equation. Syst. Control. Lett. 193: 105919 (2024) - [j181]Pengfei Wang, Emilia Fridman:
Sampled-Data Finite-Dimensional Observer-Based Control of 1D Stochastic Parabolic PDEs. SIAM J. Control. Optim. 62(1): 297-325 (2024) - [j180]Jin Zhang, Emilia Fridman:
Erratum to "Constructive Robust Stabilization by Using Square Wave Dithers: A Time-Delay Approach". IEEE Trans. Autom. Control. 69(1): 697 (2024) - [j179]Anton Selivanov, Emilia Fridman:
Finite-Dimensional Boundary Control of a Wave Equation With Viscous Friction and Boundary Measurements. IEEE Trans. Autom. Control. 69(5): 3182-3189 (2024) - [j178]Denis V. Efimov, Emilia Fridman:
On ISS With Respect to Average Value of Disturbances: A Time-Delay Approach. IEEE Trans. Autom. Control. 69(5): 3434-3440 (2024) - [j177]Constantinos Kitsos, Emilia Fridman:
Stabilization of Underactuated Linear Coupled Reaction-Diffusion PDEs via Distributed or Boundary Actuation. IEEE Trans. Autom. Control. 69(7): 4183-4198 (2024) - [j176]Amedeo Andreotti, Bianca Caiazzo, Emilia Fridman, Alberto Petrillo, Stefania Santini:
Distributed Dynamic Event-Triggered Control for Voltage Recovery in Islanded Microgrids by Using Artificial Delays. IEEE Trans. Cybern. 54(7): 3890-3903 (2024) - [c120]Xuefei Yang, Bowen Zhao, Emilia Fridman:
A Time-Delay Approach to Multi-Variable Extremum Seeking with Measurement Noise. ECC 2024: 531-536 - [c119]Pengfei Wang, Emilia Fridman:
Finite-Dimensional Boundary Control for Stochastic Semilinear 2D Parabolic PDEs. ECC 2024: 810-815 - [c118]Adam Jbara, Rami Katz, Emilia Fridman:
Stability by averaging of linear discrete-time systems. ECC 2024: 1662-1667 - [i9]Pengfei Wang, Emilia Fridman:
Delayed finite-dimensional observer-based control of 2D linear parabolic PDEs. CoRR abs/2401.07246 (2024) - [i8]Haojun Wang, Kun Liu, Baojia Li, Emilia Fridman, Yuanqing Xia:
Privacy and Security Trade-off in Interconnected Systems with Known or Unknown Privacy Noise Covariance. CoRR abs/2405.16905 (2024) - 2023
- [j175]Wen Kang, Emilia Fridman, Chuan-Xin Liu:
Stabilization by switching of parabolic PDEs with spatially scheduled actuators and sensors. Autom. 147: 110668 (2023) - [j174]Pengfei Wang, Rami Katz, Emilia Fridman:
Constructive finite-dimensional boundary control of stochastic 1D parabolic PDEs. Autom. 148: 110793 (2023) - [j173]Rami Katz, Emilia Fridman:
Global stabilization of a 1D semilinear heat equation via modal decomposition and direct Lyapunov approach. Autom. 149: 110809 (2023) - [j172]Jin Zhang, Emilia Fridman:
Lie-brackets-based averaging of affine systems via a time-delay approach. Autom. 152: 110971 (2023) - [j171]Sergiy Zhuk, Mykhaylo Zayats, Emilia Fridman:
Detectability and global observer design for 2D Navier-Stokes equations with uncertain inputs. Autom. 153: 111043 (2023) - [j170]Alexander Yu. Aleksandrov, Denis V. Efimov, Emilia Fridman:
Stability of homogeneous systems with distributed delay and time-varying perturbations. Autom. 153: 111058 (2023) - [j169]Takuya Iwaki, Emilia Fridman, Karl Henrik Johansson:
Multi-loop periodic event-triggered actuation: applications to PID, cascade, and decoupling control. Int. J. Control 96(4): 854-869 (2023) - [j168]Pengfei Wang, Emilia Fridman:
Predictor methods for finite-dimensional observer-based control of stochastic parabolic PDEs. Syst. Control. Lett. 181: 105632 (2023) - [j167]Yang Zhu, Emilia Fridman, Tiago Roux Oliveira:
Sampled-Data Extremum Seeking With Constant Delay: A Time-Delay Approach. IEEE Trans. Autom. Control. 68(1): 432-439 (2023) - [j166]Wenjie Mei, Denis V. Efimov, Rosane Ushirobira, Emilia Fridman:
On Delay-Dependent Conditions of ISS for Generalized Persidskii Systems. IEEE Trans. Autom. Control. 68(7): 4225-4232 (2023) - [j165]Xuefei Yang, Jin Zhang, Emilia Fridman:
Periodic Averaging of Discrete-Time Systems: A Time-Delay Approach. IEEE Trans. Autom. Control. 68(7): 4482-4489 (2023) - [j164]Jin Zhang, Emilia Fridman:
Constructive Robust Stabilization by Using Square Wave Dithers: A Time-Delay Approach. IEEE Trans. Autom. Control. 68(10): 6307-6314 (2023) - [c117]Jin Zhang, Zhihao Zhang, Emilia Fridman:
Event-Triggered Robust Stabilization by Using Fast-Varying Square Wave Dithers. CDC 2023: 852-857 - [c116]Alexander Yu. Aleksandrov, Denis V. Efimov, Emilia Fridman:
On Stability of Second-Order Nonlinear Time-Delay Systems Without Damping. CDC 2023: 956-961 - [c115]Anton Selivanov, Emilia Fridman:
Disturbance Attenuation in the Euler-Bernoulli Beam with Viscous and Kelvin-Voigt Damping via Piezoelectric Actuators. CDC 2023: 1961-1966 - [c114]Pengfei Wang, Emilia Fridman:
Sub-Predictors for Finite-Dimensional Observer-Based Control of Stochastic Semilinear Parabolic PDEs. CDC 2023: 2943-2949 - [c113]Xuefei Yang, Emilia Fridman, Bowen Zhao:
Bounded Extremum Seeking for Single-Variable Static Map with Large Measurement Delay via Time-Delay Approach to Averaging. CDC 2023: 3664-3669 - [c112]Xuefei Yang, Emilia Fridman:
A Robust Time-Delay Approach to Continuous-Time Extremum Seeking for Multi-Variable Static Map. CDC 2023: 6768-6773 - [c111]Wen Kang, Emilia Fridman, Jing Zhang, Chuan-Xin Liu:
Event-Triggered Stabilization of Parabolic PDEs by Switching. CDC 2023: 6899-6904 - [c110]Tarek Ahmed-Ali, Emilia Fridman, Françoise Lamnabhi-Lagarrigue:
Finite-Dimensional Adaptive Observer Design for Reaction-Diffusion System. CDC 2023: 8138-8142 - [c109]Rami Katz, Emilia Fridman, Frédéric Mazenc:
ISS of Rapidly Time-Varying Systems Via a Novel Presentation and Delay-Free Transformation. CDC 2023: 8763-8768 - [i7]Xuefei Yang, Emilia Fridman:
A Robust Time-Delay Approach to Extremum Seeking via ISS Analysis of the Averaged System. CoRR abs/2302.01732 (2023) - [i6]Xuefei Yang, Emilia Fridman:
Extremum seeking in the presence of large delays via time-delay approach to averaging. CoRR abs/2310.09474 (2023) - 2022
- [j163]Yang Zhu, Emilia Fridman:
Extremum seeking via a time-delay approach to averaging. Autom. 135: 109965 (2022) - [j162]Rami Katz, Emilia Fridman:
Sampled-data finite-dimensional boundary control of 1D parabolic PDEs under point measurement via a novel ISS Halanay's inequality. Autom. 135: 109966 (2022) - [j161]Jin Zhang, Emilia Fridman:
L2-gain analysis via time-delay approach to periodic averaging with stochastic extension. Autom. 137: 110126 (2022) - [j160]Rami Katz, Emilia Fridman:
Delayed finite-dimensional observer-based control of 1D parabolic PDEs via reduced-order LMIs. Autom. 142: 110341 (2022) - [j159]Artem N. Nekhoroshikh, Denis V. Efimov, Emilia Fridman, Wilfrid Perruquetti, Igor B. Furtat, Andrei Polyakov:
Practical fixed-time ISS of neutral time-delay systems with application to stabilization by using delays. Autom. 143: 110455 (2022) - [j158]Rami Katz, Emilia Fridman:
Sub-Predictors and Classical Predictors for Finite-Dimensional Observer-Based Control of Parabolic PDEs. IEEE Control. Syst. Lett. 6: 626-631 (2022) - [j157]Rami Katz, Emilia Fridman:
Regional Stabilization of the 1-D Kuramoto-Sivashinsky Equation via Modal Decomposition. IEEE Control. Syst. Lett. 6: 1814-1819 (2022) - [j156]Anton Selivanov, Emilia Fridman:
PDE-Based Deployment of Multiagents Measuring Relative Position to One Neighbor. IEEE Control. Syst. Lett. 6: 2563-2568 (2022) - [j155]Rami Katz, Emilia Fridman:
Global finite-dimensional observer-based stabilization of a semilinear heat equation with large input delay. Syst. Control. Lett. 165: 105275 (2022) - [j154]Jin Zhang, Emilia Fridman:
Digital Implementation of Derivative-Dependent Control by Using Delays for Stochastic Multiagents. IEEE Trans. Autom. Control. 67(1): 351-358 (2022) - [j153]Wen Kang, Emilia Fridman:
Sampled-Data Control of 2-D Kuramoto-Sivashinsky Equation. IEEE Trans. Autom. Control. 67(3): 1314-1326 (2022) - [j152]Juan G. Rueda-Escobedo, Emilia Fridman, Johannes Schiffer:
Data-Driven Control for Linear Discrete-Time Delay Systems. IEEE Trans. Autom. Control. 67(7): 3321-3336 (2022) - [j151]Rami Katz, Emilia Fridman:
Finite-Dimensional Boundary Control of the Linear Kuramoto-Sivashinsky Equation Under Point Measurement With Guaranteed $L^2$-Gain. IEEE Trans. Autom. Control. 67(10): 5570-5577 (2022) - [c108]Pengfei Wang, Rami Katz, Emilia Fridman:
Constructive finite-dimensional observer-based boundary control of stochastic parabolic PDEs. ACC 2022: 1667-1672 - [c107]Wen Kang, Emilia Fridman, Chuan-Xin Liu:
Switching control of semilinear vector reaction-convection-diffusion PDE. ACC 2022: 2391-2396 - [c106]Hongyu Shen, Emilia Fridman, Hongye Su, Yang Zhu:
A Time-delay Approach to Averaging for Bounded Extremum Seeking with Discontinuous Dither and Measurement Bias *. ACC 2022: 5117-5122 - [c105]Yang Zhu, Emilia Fridman:
A Time-delay Approach for Extremum Seeking of Scalar Dynamical Systems*. CDC 2022: 715-722 - [c104]Pengfei Wang, Emilia Fridman:
Sampled-data finite-dimensional observer-based boundary control of 1D stochastic parabolic PDEs. CDC 2022: 1045-1050 - [c103]Rami Katz, Emilia Fridman, Idan Basre:
Network-based deployment of multi-agents without communication of leaders with multiple followers: a PDE approach. CDC 2022: 6089-6096 - [c102]Xuefei Yang, Emilia Fridman:
Practical stabilization of affine discrete-time systems by periodic switching via a time-delay approach to averaging. CDC 2022: 6869-6874 - [c101]Jin Zhang, Emilia Fridman:
A time-delay approach to Lie-brackets-based averaging of affine systems. CDC 2022: 6895-6901 - [c100]Emilia Fridman:
Using Delays for Control. ICINCO 2022: 11 - [c99]Jing Xu, Emilia Fridman, Leonid M. Fridman, Yugang Niu:
Delayed Sliding Mode Observer Design for Linear Systems with Unknown Inputs and Measurement delays. VSS 2022: 83-88 - 2021
- [j150]Wen Kang, Lucie Baudouin, Emilia Fridman:
Event-triggered control of Korteweg-de Vries equation under averaged measurements. Autom. 123: 109315 (2021) - [j149]Yang Zhu, Emilia Fridman:
Sub-predictors for network-based control under uncertain large delays. Autom. 123: 109350 (2021) - [j148]Rami Katz, Emilia Fridman:
Delayed finite-dimensional observer-based control of 1-D parabolic PDEs. Autom. 123: 109364 (2021) - [j147]Maria Terushkin, Emilia Fridman:
Network-based deployment of nonlinear multi agents over open curves: A PDE approach. Autom. 129: 109697 (2021) - [j146]Robert Griñó, Romeo Ortega, Emilia Fridman, Jin Zhang, Frédéric Mazenc:
A behavioural dynamic model for constant power loads in single-phase AC systems. Autom. 131: 109744 (2021) - [j145]Rami Katz, Emilia Fridman:
Finite-dimensional control of the heat equation: Dirichlet actuation and point measurement. Eur. J. Control 62: 158-164 (2021) - [j144]Mario Di Ferdinando, Pierdomenico Pepe, Emilia Fridman:
Exponential input-to-state stability of globally Lipschitz time-delay systems under sampled-data noisy output feedback and actuation disturbances. Int. J. Control 94(6): 1682-1692 (2021) - [j143]Jin Zhang, Wen Kang, Emilia Fridman, Alexandre Seuret:
Delayed stabilization of parabolic PDEs via augmented Lyapunov functionals and Legendre polynomials. Syst. Control. Lett. 156: 105003 (2021) - [j142]Rami Katz, Emilia Fridman, Anton Selivanov:
Boundary Delayed Observer-Controller Design for Reaction-Diffusion Systems. IEEE Trans. Autom. Control. 66(1): 275-282 (2021) - [j141]Yang Zhu, Emilia Fridman:
Observer-Based Decentralized Predictor Control for Large-Scale Interconnected Systems With Large Delays. IEEE Trans. Autom. Control. 66(6): 2897-2904 (2021) - [j140]Haik Silm, Rosane Ushirobira, Denis V. Efimov, Emilia Fridman, Jean-Pierre Richard, Wim Michiels:
Distributed Observers With Time-Varying Delays. IEEE Trans. Autom. Control. 66(11): 5354-5361 (2021) - [j139]Jian Wang, Stanislav Aranovskiy, Emilia Fridman, Dmitry Sokolov, Denis V. Efimov, Alexey A. Bobtsov:
Robust Adaptive Stabilization by Delay Under State Parametric Uncertainty and Measurement Bias. IEEE Trans. Autom. Control. 66(11): 5459-5466 (2021) - [j138]Igor Furtat, Emilia Fridman:
Delayed Disturbance Attenuation via Measurement Noise Estimation. IEEE Trans. Autom. Control. 66(11): 5546-5553 (2021) - [j137]Jin Zhang, Emilia Fridman:
Dynamic Event-Triggered Control of Networked Stochastic Systems With Scheduling Protocols. IEEE Trans. Autom. Control. 66(12): 6139-6147 (2021) - [j136]Sultan M. Alghamdi, Johannes Schiffer, Emilia Fridman:
Synthesizing Sparse and Delay-Robust Distributed Secondary Frequency Controllers for Microgrids. IEEE Trans. Control. Syst. Technol. 29(2): 691-703 (2021) - [c98]Yang Zhu, Emilia Fridman:
Continuous-time Extremum Seeking for Scalar Systems via a Time-Delay Approach to Averaging. CDC 2021: 352-359 - [c97]Wen Kang, Emilia Fridman, Chuan-Xin Liu:
Stabilization for a semilinear heat equation with switching control. CDC 2021: 448-453 - [c96]Mykhaylo Zayats, Emilia Fridman, Sergiy Zhuk:
Global observer design for Navier-Stokes equations in 2D. CDC 2021: 1862-1867 - [c95]Yang Zhu, Emilia Fridman, Tiago Roux Oliveira:
A Time-delay Approach for Sampled-data and Delayed Scalar Extremum Seeking. CDC 2021: 6073-6080 - [c94]Rami Katz, Idan Basre, Emilia Fridman:
Delayed finite-dimensional observer-based control of 1D heat equation under Neumann actuation. ECC 2021: 2500-2505 - 2020
- [j135]Tatiana Kharkovskaia, Denis V. Efimov, Emilia Fridman, Andrei Polyakov, Jean-Pierre Richard:
Interval observer design and control of uncertain non-homogeneous heat equations. Autom. 111 (2020) - [j134]Yang Zhu, Emilia Fridman:
Predictor methods for decentralized control of large-scale systems with input delays. Autom. 116: 108903 (2020) - [j133]Rami Katz, Michael Margaliot, Emilia Fridman:
Entrainment to subharmonic trajectories in oscillatory discrete-time systems. Autom. 116: 108919 (2020) - [j132]Denis V. Efimov, Emilia Fridman, Wilfrid Perruquetti, Jean-Pierre Richard:
Homogeneity of neutral systems and accelerated stabilization of a double integrator by measurement of its position. Autom. 118: 109023 (2020) - [j131]Denis V. Efimov, Emilia Fridman:
Converse Lyapunov-Krasovskii theorem for ISS of neutral systems in Sobolev spaces. Autom. 118: 109042 (2020) - [j130]Jin Zhang, Emilia Fridman:
Improved derivative-dependent control of stochastic systems via delayed feedback implementation. Autom. 119: 109101 (2020) - [j129]Rami Katz, Emilia Fridman:
Constructive method for finite-dimensional observer-based control of 1-D parabolic PDEs. Autom. 122: 109285 (2020) - [j128]Emilia Fridman, Jin Zhang:
Averaging of linear systems with almost periodic coefficients: A time-delay approach. Autom. 122: 109287 (2020) - [j127]Emilia Fridman, Daniel Liberzon, Pavel V. Pakshin, Anton V. Proskurnikov:
Special issue dedicated to Prof. Alexander L. Fradkov. Int. J. Control 93(2): 171-172 (2020) - [j126]Ricardo Sanz, Pedro García, Emilia Fridman, Pedro Albertos:
Robust predictive extended state observer for a class of nonlinear systems with time-varying input delay. Int. J. Control 93(2): 217-225 (2020) - [j125]Maria Terushkin, Emilia Fridman:
Network-based control of a semilinear damped beam equation under point and pointlike measurements. Syst. Control. Lett. 136: 104617 (2020) - [j124]Wen Kang, Emilia Fridman:
Constrained control of 1-D parabolic PDEs using sampled in space sensing and actuation. Syst. Control. Lett. 140: 104698 (2020) - [j123]Tarek Ahmed-Ali, Emilia Fridman, Fouad Giri, Mohamed Kahelras, Françoise Lamnabhi-Lagarrigue, Laurent Burlion:
Observer Design For a Class of Parabolic Systems With Large Delays and Sampled Measurements. IEEE Trans. Autom. Control. 65(5): 2200-2206 (2020) - [j122]Tonametl Sanchez, Andrei Polyakov, Emilia Fridman, Laurentiu Hetel:
A Switching Controller for a Class of MIMO Bilinear Systems With Time Delay. IEEE Trans. Autom. Control. 65(5): 2250-2256 (2020) - [j121]Jing Xu, Emilia Fridman, Leonid M. Fridman, Yugang Niu:
Static Sliding Mode Control of Systems With Arbitrary Relative Degree by Using Artificial Delay. IEEE Trans. Autom. Control. 65(12): 5464-5471 (2020) - [c93]Rami Katz, Emilia Fridman:
Finite-dimensional control of the Kuramoto-Sivashinsky equation under point measurement and actuation. CDC 2020: 4423-4428 - [c92]Jin Zhang, Wen Kang, Emilia Fridman, Alexandre Seuret:
Improved observer design for heat equation with constant measurement delay via Legendre polynomials. CDC 2020: 4448-4453 - [c91]Yang Zhu, Emilia Fridman:
Sub-predictors for Network-based Control under Uncertain Large Delays. CDC 2020: 5683-5688 - [c90]Ruslan Seifullaev, Alexander L. Fradkov, Emilia Fridman:
Energy control of the pendulum without measuring its angular velocity. ECC 2020: 77-82 - [c89]Emilia Fridman:
Delayed and Sampled-Data Control of ODE and PDE Systems. ECC 2020: 289
2010 – 2019
- 2019
- [j120]Kun Liu, Anton Selivanov, Emilia Fridman:
Survey on time-delay approach to networked control. Annu. Rev. Control. 48: 57-79 (2019) - [j119]Wen Kang, Emilia Fridman:
Distributed stabilization of Korteweg-de Vries-Burgers equation in the presence of input delay. Autom. 100: 260-273 (2019) - [j118]Jieqiang Wei, Emilia Fridman, Karl Henrik Johansson:
A PDE approach to deployment of mobile agents under leader relative position measurements. Autom. 106: 47-53 (2019) - [j117]Maria Terushkin, Emilia Fridman:
Sampled-data observers for semilinear damped wave equations under spatially sampled state measurements. Autom. 106: 150-160 (2019) - [j116]Anton Selivanov, Emilia Fridman:
Delayed H∞ control of 2D diffusion systems under delayed pointlike measurements. Autom. 109 (2019) - [j115]Vivek Natarajan, Hua-Cheng Zhou, George Weiss, Emilia Fridman:
Exact controllability of a class of nonlinear distributed parameter systems using back-and-forth iterations. Int. J. Control 92(1): 145-162 (2019) - [j114]Emilia Fridman, Leonid E. Shaikhet:
Simple LMIs for stability of stochastic systems with delay term given by Stieltjes integral or with stabilizing delay. Syst. Control. Lett. 124: 83-91 (2019) - [j113]Alberto Castillo, Pedro García, Emilia Fridman, Pedro Albertos:
Extended state observer-based control for systems with locally Lipschitz uncertainties: LMI-based stability conditions. Syst. Control. Lett. 134 (2019) - [j112]Anton Selivanov, Emilia Fridman:
Boundary Observers for a Reaction-Diffusion System Under Time-Delayed and Sampled-Data Measurements. IEEE Trans. Autom. Control. 64(8): 3385-3390 (2019) - [j111]Alexey S. Matveev, Anton V. Proskurnikov, Alexander Yu. Pogromsky, Emilia Fridman:
Comprehending Complexity: Data-Rate Constraints in Large-Scale Networks. IEEE Trans. Autom. Control. 64(10): 4252-4259 (2019) - [c88]Jin Zhang, Emilia Fridman:
Derivative-dependent control of stochastic systems via delayed feedback implementation. CDC 2019: 66-71 - [c87]Maria Terushkin, Emilia Fridman:
Network-based control of damped beam equation under point and pointlike measurements. CDC 2019: 256-261 - [c86]Wen Kang, Emilia Fridman:
Sampled-data control of 2D Kuramoto-Sivashinsky equation under the averaged measurements. CDC 2019: 268-273 - [c85]Wen Kang, Emilia Fridman, Sergiy Zhuk:
Sampled-data observer for 2D Navier-Stokes equation. CDC 2019: 1201-1206 - [c84]Rami Katz, Emilia Fridman, Anton Selivanov:
Network-based boundary observer-controller design for 1D heat equation. CDC 2019: 2151-2156 - [c83]Takuya Iwaki, Emilia Fridman, Karl Henrik Johansson:
Event-based Switching for Sampled-data Output Feedback Control: Applications to Cascade and Feedforward Control. CDC 2019: 2592-2597 - [c82]Nicolás Espitia, Andrey Polyakov, Emilia Fridman:
On local finite-time stabilization of the w via boundary switched linear feedback. CDC 2019: 4029-4034 - [c81]Yang Zhu, Emilia Fridman:
Decentralized Predictor Feedback of Large-scale Systems under Input Delays. CDC 2019: 4642-4647 - [c80]Denis V. Efimov, Emilia Fridman, Jean-Pierre Richard:
On robust stability of sine-Gordon equation. CDC 2019: 7001-7006 - [c79]Maria Terushkin, Emilia Fridman:
Sampled-Data observers for semilinear damped wave equations under point measurements. ECC 2019: 2102-2107 - [c78]Jieqiang Wei, Emilia Fridman, Anton Selivanov, Karl Henrik Johansson:
Multi-agent deployment under the leader displacement measurement: a PDE-based approach. ECC 2019: 2424-2429 - [c77]Jin Zhang, Emilia Fridman:
Networked control of stochastic systems with scheduling protocols. ECC 2019: 3002-3007 - [c76]Rami Katz, Michael Margaliot, Emilia Fridman:
On Totally Positive Discrete- Time Systems. MED 2019: 434-438 - 2018
- [j110]Ankush Chakrabarty, Emilia Fridman, Stanislaw H. Zak, Gregery T. Buzzard:
State and unknown input observers for nonlinear systems with delayed measurements. Autom. 95: 246-253 (2018) - [j109]Wen Kang, Emilia Fridman:
Distributed sampled-data control of Kuramoto-Sivashinsky equation. Autom. 95: 514-524 (2018) - [j108]Anton Selivanov, Emilia Fridman:
Delayed point control of a reaction-diffusion PDE under discrete-time point measurements. Autom. 96: 224-233 (2018) - [j107]Anton Selivanov, Emilia Fridman:
An improved time-delay implementation of derivative-dependent feedback. Autom. 98: 269-276 (2018) - [j106]Alexandre Seuret, Emilia Fridman:
Wirtinger-like Lyapunov-Krasovskii functionals for discrete-time delay systems. IMA J. Math. Control. Inf. 35(3): 861-876 (2018) - [j105]Igor Furtat, Emilia Fridman, Alexander L. Fradkov:
Disturbance Compensation With Finite Spectrum Assignment for Plants With Input Delay. IEEE Trans. Autom. Control. 63(1): 298-305 (2018) - [j104]Anton Selivanov, Emilia Fridman:
Sampled-Data Implementation of Derivative-Dependent Control Using Artificial Delays. IEEE Trans. Autom. Control. 63(10): 3594-3600 (2018) - [j103]Wen Kang, Emilia Fridman:
Boundary Constrained Control of Delayed Nonlinear Schrödinger Equation. IEEE Trans. Autom. Control. 63(11): 3873-3880 (2018) - [c75]Walid Djema, Frédéric Mazenc, Catherine Bonnet, Jean Clairambault, Emilia Fridman:
Stability Analysis of a Nonlinear System with Infinite Distributed Delays Describing Cell Dynamics. ACC 2018: 1220-1223 - [c74]Wen Kang, Emilia Fridman:
Regional stabilization of linear delayed Schrödinger equation by constrained boundary control. ACC 2018: 3330-3335 - [c73]Anton Selivanov, Emilia Fridman:
Sampled-data H∞ filtering of a 2D heat equation under pointlike measurements. CDC 2018: 539-544 - [c72]Sultan M. Alghamdi, Johannes Schiffer, Emilia Fridman:
Conditions for Delay-Robust Consensus-Based Frequency Control in Power Systems with Second-Order Turbine-Governor Dynamics. CDC 2018: 786-793 - [c71]Anton Selivanov, Emilia Fridman:
Robust sampled-data implementation of PID controller. CDC 2018: 932-936 - [c70]Tarek Ahmed-Ali, Emilia Fridman, Fouad Giri, Mohamed Kahelras, Françoise Lamnabhi-Lagarrigue, Laurent Burlion:
Observer design for a class of parabolic systems with arbitrarily delayed measurements. CDC 2018: 2199-2204 - [c69]Tatiana Kharkovskaia, Denis V. Efimov, Emilia Fridman, Andrei Polyakov, Jean-Pierre Richard:
Interval Estimation for Second-Order Delay Differential Equations with Delayed Measurements and Uncertainties. CDC 2018: 5457-5462 - [c68]Emilia Fridman, Leonid E. Shaikhet:
Delay-Dependent LMI Conditions for Stability of Stochastic Systems with Delay Term in the Form of Stieltjes Integral. CDC 2018: 6567-6572 - [c67]Denis V. Efimov, Emilia Fridman, Wilfrid Perruquetti, Jean-Pierre Richard:
On hyper-exponential output-feedback stabilization of a double integrator by using artificial delay. ECC 2018: 1-5 - [c66]Sultan M. Alghamdi, Johannes Schiffer, Emilia Fridman:
Distributed Secondary Frequency Control Design for Microgrids: Trading Off L2-Gain Performance and Communication Efforts under Time-Varying Delays. ECC 2018: 758-763 - [c65]Wen Kang, Emilia Fridman:
Distributed sampled-data control of Kuramoto-Sivashinsky equation under the point measurements. ECC 2018: 1189-1194 - [c64]Haik Silm, Rosane Ushirobira, Denis V. Efimov, Wim Michiels, Jean-Pierre Richard, Emilia Fridman:
Comparison of the Time-Delay Margin of a Distributed and Centralized Observer. ECC 2018: 1963-1968 - 2017
- [j102]Laurentiu Hetel, Christophe Fiter, Hassan Omran, Alexandre Seuret, Emilia Fridman, Jean-Pierre Richard, Silviu-Iulian Niculescu:
Recent developments on the stability of systems with aperiodic sampling: An overview. Autom. 76: 309-335 (2017) - [j101]Johannes Schiffer, Florian Dörfler, Emilia Fridman:
Robustness of distributed averaging control in power systems: Time delays & dynamic communication topology. Autom. 80: 261-271 (2017) - [j100]Emilia Fridman, Leonid E. Shaikhet:
Stabilization by using artificial delays: An LMI approach. Autom. 81: 429-437 (2017) - [j99]Anton Selivanov, Emilia Fridman:
Sampled-data relay control of diffusion PDEs. Autom. 82: 59-68 (2017) - [j98]Pierdomenico Pepe, Emilia Fridman:
On global exponential stability preservation under sampling for globally Lipschitz time-delay systems. Autom. 82: 295-300 (2017) - [j97]Wen Kang, Emilia Fridman:
Boundary control of delayed ODE-heat cascade under actuator saturation. Autom. 83: 252-261 (2017) - [j96]Valery Y. Glizer, Emilia Fridman, Yuri Feigin:
A Novel Approach to Exact Slow-Fast Decomposition of Linear Singularly Perturbed Systems with Small Delays. SIAM J. Control. Optim. 55(1): 236-274 (2017) - [j95]Eli Gershon, Emilia Fridman, Uri Shaked:
Predictor-Based Control of Systems With State Multiplicative Noise. IEEE Trans. Autom. Control. 62(2): 914-920 (2017) - [c63]Anton Selivanov, Emilia Fridman:
Delayed boundary control of a heat equation under discrete-time point measurements. CDC 2017: 1248-1253 - [c62]Andrey Polyakov, Denis V. Efimov, Emilia Fridman, Wilfrid Perruquetti, Jean-Pierre Richard:
On hyper exponential stabilization of linear state-delay systems. CDC 2017: 4321-4326 - [c61]Ricardo Sanz, Pedro García, Emilia Fridman, Pedro Albertos:
A predictive extended state observer for a class of nonlinear systems with input delay subject to external disturbances. CDC 2017: 4345-4350 - 2016
- [j94]Emilia Fridman, Maria Terushkin:
New stability and exact observability conditions for semilinear wave equations. Autom. 63: 1-10 (2016) - [j93]Frédéric Mazenc, Emilia Fridman:
Predictor-based sampled-data exponential stabilization through continuous-discrete observers. Autom. 63: 74-81 (2016) - [j92]Tarek Ahmed-Ali, Emilia Fridman, Fouad Giri, Laurent Burlion, Françoise Lamnabhi-Lagarrigue:
Using exponential time-varying gains for sampled-data stabilization and estimation. Autom. 67: 244-251 (2016) - [j91]Anton Selivanov, Emilia Fridman:
Distributed event-triggered control of diffusion semilinear PDEs. Autom. 68: 344-351 (2016) - [j90]Dror Freirich, Emilia Fridman:
Decentralized networked control of systems with local networks: A time-delay approach. Autom. 69: 201-209 (2016) - [j89]Kun Liu, Emilia Fridman, Karl Henrik Johansson, Yuanqing Xia:
Generalized Jensen inequalities with application to stability analysis of systems with distributed delays over infinite time-horizons. Autom. 69: 222-231 (2016) - [j88]Anton Selivanov, Emilia Fridman:
Predictor-based networked control under uncertain transmission delays. Autom. 70: 101-108 (2016) - [j87]Denis V. Efimov, Emilia Fridman, Andrey Polyakov, Wilfrid Perruquetti, Jean-Pierre Richard:
Linear interval observers under delayed measurements and delay-dependent positivity. Autom. 72: 123-130 (2016) - [j86]Anton Selivanov, Emilia Fridman:
Observer-based input-to-state stabilization of networked control systems with large uncertain delays. Autom. 74: 63-70 (2016) - [j85]Johannes Schiffer, Emilia Fridman, Romeo Ortega, Jörg Raisch:
Stability of a class of delayed port-Hamiltonian systems with application to microgrids with distributed rotational and electronic generation. Autom. 74: 71-79 (2016) - [j84]Emilia Fridman, Leonid E. Shaikhet:
Delay-induced stability of vector second-order systems via simple Lyapunov functionals. Autom. 74: 288-296 (2016) - [j83]Emilia Fridman, Catherine Bonnet, Frédéric Mazenc, Walid Djema:
Stability of the cell dynamics in acute myeloid leukemia. Syst. Control. Lett. 88: 91-100 (2016) - [j82]Denis V. Efimov, Emilia Fridman, Andrei Polyakov, Wilfrid Perruquetti, Jean-Pierre Richard:
On design of interval observers with sampled measurement. Syst. Control. Lett. 96: 158-164 (2016) - [j81]Alexander Domoshnitsky, Emilia Fridman:
A positivity-based approach to delay-dependent stability of systems with large time-varying delays. Syst. Control. Lett. 97: 139-148 (2016) - [j80]Wen Kang, Emilia Fridman:
Sliding mode control of Schrödinger equation-ODE in the presence of unmatched disturbances. Syst. Control. Lett. 98: 65-73 (2016) - [j79]Anton Selivanov, Emilia Fridman:
Event-Triggered H∞ Control: A Switching Approach. IEEE Trans. Autom. Control. 61(10): 3221-3226 (2016) - [j78]Andrey Polyakov, Denis V. Efimov, Emilia Fridman, Wilfrid Perruquetti:
On Homogeneous Distributed Parameter Systems. IEEE Trans. Autom. Control. 61(11): 3657-3662 (2016) - [j77]Kun Liu, Emilia Fridman, Karl Henrik Johansson, Yuanqing Xia:
Quantized Control Under Round-Robin Communication Protocol. IEEE Trans. Ind. Electron. 63(7): 4461-4471 (2016) - [c60]Anton Selivanov, Emilia Fridman:
Predictor-based networked control in the presence of uncertain time-varying delays. CDC 2016: 501-506 - [c59]Kun Liu, Xia Pan, Yuanqing Xia, Emilia Fridman, James Lam:
Networked control under communication constraints: The discrete-time case. CDC 2016: 991-996 - [c58]Ankush Chakrabarty, Gregery T. Buzzard, Emilia Fridman, Stanislaw H. Zak:
Unknown input estimation via observers for nonlinear systems with measurement delays. CDC 2016: 2308-2313 - [c57]Emilia Fridman, Leonid E. Shaikhet:
Simple LMIs for stabilization by using delays. CDC 2016: 3240-3245 - [c56]Anton Selivanov, Emilia Fridman:
Sampled-data relay control of semilinear diffusion PDEs. CDC 2016: 4821-4826 - [c55]Denis V. Efimov, Emilia Fridman, Andrei Polyakov, Wilfrid Perruquetti, Jean-Pierre Richard:
On design of sampled-data interval observers. ECC 2016: 1691-1696 - [i5]Kun Liu, Emilia Fridman, Karl Henrik Johansson, Yuanqing Xia:
Generalized Jensen Inequalities with Application to Stability Analysis of Systems with Distributed Delays over Infinite Time-Horizons. CoRR abs/1602.05281 (2016) - [i4]Emilia Fridman, Maria Terushkin:
New Stability and Exact Observability Conditions for Semilinear Wave Equations. CoRR abs/1602.07567 (2016) - 2015
- [j76]Anton Selivanov, Emilia Fridman, Alexander L. Fradkov:
Passification-based adaptive control: Uncertain input and output delays. Autom. 54: 107-113 (2015) - [j75]Kun Liu, Emilia Fridman, Karl Henrik Johansson:
Dynamic quantization of uncertain linear networked control systems. Autom. 59: 248-255 (2015) - [j74]Oren Solomon, Emilia Fridman:
Stability and passivity analysis of semilinear diffusion PDEs with time-delays. Int. J. Control 88(1): 180-192 (2015) - [j73]Anton Selivanov, Alexander L. Fradkov, Emilia Fridman:
Passification-based decentralized adaptive synchronization of dynamical networks with time-varying delays. J. Frankl. Inst. 352(1): 52-72 (2015) - [j72]Frédéric Mazenc, Emilia Fridman, Walid Djema:
Estimation of solutions of observable nonlinear systems with disturbances. Syst. Control. Lett. 79: 47-58 (2015) - [j71]Kun Liu, Emilia Fridman, Laurentiu Hetel:
Networked Control Systems in the Presence of Scheduling Protocols and Communication Delays. SIAM J. Control. Optim. 53(4): 1768-1788 (2015) - [j70]Laurentiu Hetel, Emilia Fridman, Thierry Floquet:
Variable Structure Control With Generalized Relays: A Simple Convex Optimization Approach. IEEE Trans. Autom. Control. 60(2): 497-502 (2015) - [j69]Alexandre Seuret, Frédéric Gouaisbaut, Emilia Fridman:
Stability of Discrete-Time Systems With Time-Varying Delays via a Novel Summation Inequality. IEEE Trans. Autom. Control. 60(10): 2740-2745 (2015) - [j68]Kun Liu, Emilia Fridman, Karl Henrik Johansson:
Networked Control With Stochastic Scheduling. IEEE Trans. Autom. Control. 60(11): 3071-3076 (2015) - [c54]Emilia Fridman, Maria Terushkin:
Exact observability of semilinear multidimensional wave equations: An LMI approach. CDC 2015: 2507-2512 - [c53]Anton Selivanov, Emilia Fridman:
A switching approach to event-triggered control. CDC 2015: 5468-5473 - [c52]Johannes Schiffer, Emilia Fridman, Romeo Ortega:
Stability of a class of delayed port-Hamiltonian systems with application to droop-controlled microgrids. CDC 2015: 6391-6396 - [c51]Kun Liu, Karl Henrik Johansson, Emilia Fridman, Yuanqing Xia:
Stability analysis of discrete-time systems with poisson-distributed delays. CDC 2015: 7736-7741 - [c50]Denis V. Efimov, Andrei Polyakov, Emilia Fridman, Wilfrid Perruquetti, Jean-Pierre Richard:
Delay-dependent positivity: Application to interval observers. ECC 2015: 2074-2078 - [c49]Andrei Polyakov, Denis V. Efimov, Emilia Fridman, Wilfrid Perruquetti:
On homogeneous evolution equation in a Banach space. ECC 2015: 2464-2469 - 2014
- [j67]Denis V. Efimov, Andrey Polyakov, Emilia Fridman, Wilfrid Perruquetti, Jean-Pierre Richard:
Comments on finite-time stability of time-delay systems. Autom. 50(7): 1944-1947 (2014) - [j66]Netzer Bar Am, Emilia Fridman:
Network-based H∞ filtering of parabolic systems. Autom. 50(12): 3139-3146 (2014) - [j65]Emilia Fridman:
Tutorial on Lyapunov-based methods for time-delay systems. Eur. J. Control 20(6): 271-283 (2014) - [j64]Xiaoran Han, Emilia Fridman, Sarah K. Spurgeon:
Sampled-data sliding mode observer for robust fault reconstruction: A time-delay approach. J. Frankl. Inst. 351(4): 2125-2142 (2014) - [j63]Kun Liu, Emilia Fridman:
Delay-dependent methods and the first delay interval. Syst. Control. Lett. 64: 57-63 (2014) - [j62]Valery A. Ugrinovskii, Emilia Fridman:
A Round-Robin type protocol for distributed estimation with H∞ consensus. Syst. Control. Lett. 69: 103-110 (2014) - [c48]Valery Y. Glizer, Yuri Feigin, Emilia Fridman, Michael Margaliot:
A new approach to exact slow-fast decomposition of singularly perturbed linear systems with small delays. CDC 2014: 451-456 - [c47]Oren Solomon, Emilia Fridman:
New stability conditions for semilinear diffusion systems with time-delays. CDC 2014: 1313-1317 - [c46]Netzer Bar Am, Emilia Fridman:
Networked H∞ filtering of semilinear diffusion PDEs. CDC 2014: 1324-1329 - [c45]Frédéric Mazenc, Emilia Fridman:
Predictor-based sampled-data stabilization via continuous-discrete observers. CDC 2014: 1614-1619 - [c44]Jose Louis Avila Alonso, Catherine Bonnet, Emilia Fridman, Frédéric Mazenc, Jean Clairambault:
Stability analysis of PDEs modelling cell dynamics in Acute Myeloid Leukemia. CDC 2014: 3059-3064 - [c43]Emilia Fridman, Kun Liu:
Networked control under round-robin protocol: Multiple sensors and non-small communication delays. CDC 2014: 6062-6067 - [c42]Kun Liu, Emilia Fridman:
Discrete-time network-based control under Try-Once-Discard protocol and actuator constraints. ECC 2014: 442-447 - [c41]Kun Liu, Emilia Fridman, Laurentiu Hetel:
Networked Control Systems: A time-delay approach. ECC 2014: 1434-1439 - [i3]Valery A. Ugrinovskii, Emilia Fridman:
A Round-Robin Protocol for Distributed Estimation with H∞ Consensus. CoRR abs/1401.1545 (2014) - [i2]Valery A. Ugrinovskii, Emilia Fridman:
A Round-Robin Type Protocol for Distributed Estimation with H∞ Consensus. CoRR abs/1405.1879 (2014) - [i1]Kun Liu, Emilia Fridman, Laurentiu Hetel:
Networked control systems in the presence of scheduling protocols and communication delays. CoRR abs/1408.0147 (2014) - 2013
- [j61]Emilia Fridman:
Observers and initial state recovering for a class of hyperbolic systems via Lyapunov method. Autom. 49(7): 2250-2260 (2013) - [j60]Oren Solomon, Emilia Fridman:
New stability conditions for systems with distributed delays. Autom. 49(11): 3467-3475 (2013) - [j59]Emilia Fridman, Netzer Bar Am:
Sampled-Data Distributed HINFINITY Control of Transport Reaction Systems. SIAM J. Control. Optim. 51(2): 1500-1527 (2013) - [j58]Laurentiu Hetel, Emilia Fridman:
Robust Sampled - Data Control of Switched Affine Systems. IEEE Trans. Autom. Control. 58(11): 2922-2928 (2013) - [c40]Oren Solomon, Emilia Fridman:
Systems with gamma-distributed delays: A Lyapunov-based analysis. CDC 2013: 318-323 - [c39]Alexandre Seuret, Frédéric Gouaisbaut, Emilia Fridman:
Stability of systems with fast-varying delay using improved Wirtinger's inequality. CDC 2013: 946-951 - [c38]Christophe Fiter, Emilia Fridman:
Stability of piecewise affine systems with state-dependent delay, and application to congestion control. CDC 2013: 1572-1577 - [c37]Valery A. Ugrinovskii, Emilia Fridman:
A Round-Robin protocol for distributed estimation with H∞ consensus. CDC 2013: 2811-2815 - [c36]Anton Selivanov, Emilia Fridman, Alexander L. Fradkov:
Adaptive control of systems with fast varying unknown delay in measurements. CDC 2013: 5583-5587 - [c35]Laurentiu Hetel, Emilia Fridman, Thierry Floquet:
Sampled-Data Control of LTI Systems with Relays: A Convex Optimization Approach. NOLCOS 2013: 711-716 - [c34]Kun Liu, Emilia Fridman:
Delay-Dependent Methods: When Does the First Delay Interval Need a Special Analysis? TDS 2013: 325-330 - [c33]Emilia Fridman:
Observers and Initial State Recovering for a Wave Equation: An LMI Approach. TDS 2013: 337-342 - [e1]Emmanuel Witrant, Alexandre Seuret, Emilia Fridman, Olivier Sename, Luc Dugard:
11th Workshop on Time-Delay Systems, TDS 2013, Grenoble, France, February 4-6, 2013. International Federation of Automatic Control 2013, ISBN 978-3-902823-26-7 [contents] - 2012
- [j57]Kun Liu, Emilia Fridman:
Wirtinger's inequality and Lyapunov-based sampled-data stabilization. Autom. 48(1): 102-108 (2012) - [j56]Emilia Fridman, Anatoly Blighovsky:
Robust sampled-data control of a class of semilinear parabolic systems. Autom. 48(5): 826-836 (2012) - [j55]Xiaoran Han, Emilia Fridman, Sarah K. Spurgeon:
Sliding mode control in the presence of input delay: A singular perturbation approach. Autom. 48(8): 1904-1912 (2012) - [j54]Valery Y. Glizer, Emilia Fridman:
Stability of singularly perturbed functional-differential systems: spectrum analysis and LMI approaches. IMA J. Math. Control. Inf. 29(1): 79-111 (2012) - [j53]Kun Liu, Emilia Fridman, Laurentiu Hetel:
Stability and L2-gain analysis of Networked Control Systems under Round-Robin scheduling: A time-delay approach. Syst. Control. Lett. 61(5): 666-675 (2012) - [j52]Alexandre Kruszewski, Wenjuan Jiang, Emilia Fridman, Jean-Pierre Richard, Armand Toguyéni:
A Switched System Approach to Exponential Stabilization Through Communication Network. IEEE Trans. Control. Syst. Technol. 20(4): 887-900 (2012) - [c32]Kun Liu, Emilia Fridman, Laurentiu Hetel:
Network-based control via a novel analysis of hybrid systems with time-varying delays. CDC 2012: 3886-3891 - [c31]Emilia Fridman, Netzer Bar Am:
Sampled-data distributed H∞ control of a class of parabolic systems. CDC 2012: 7529-7534 - [c30]Kun Liu, Emilia Fridman, Laurentiu Hetel:
Network-Based Control under Round-Robin Scheduling and Quantization. ROCOND 2012: 91-96 - [c29]Netzer Bar Am, Emilia Fridman:
Stabilization of Diffusion Equations under Sampled-Data Spatially Averaged Measurements. ROCOND 2012: 307-312 - [c28]Laurentiu Hetel, Emilia Fridman:
Sampled - Data Control of Switched Affine Systems: A Continuous-Time Approach. ROCOND 2012: 582-587 - 2011
- [j51]João Manoel Gomes da Silva Jr., Alexandre Seuret, Emilia Fridman, Jean-Pierre Richard:
Stabilisation of neutral systems with saturating control inputs. Int. J. Syst. Sci. 42(7): 1093-1103 (2011) - [j50]Emilia Fridman, Silviu-Iulian Niculescu, Vladimir Rasvan:
Second Special Issue on Time-Delay Systems. IMA J. Math. Control. Inf. 28(2): 145 (2011) - [c27]Xiaoran Han, Emilia Fridman, Sarah K. Spurgeon:
A sliding mode observer for fault reconstruction under output sampling: A time-delay approach. CDC/ECC 2011: 77-82 - 2010
- [j49]Emilia Fridman:
A refined input delay approach to sampled-data control. Autom. 46(2): 421-427 (2010) - [j48]Xiaoran Han, Emilia Fridman, Sarah K. Spurgeon:
Sliding-mode control of uncertain systems in the presence of unmatched disturbances with applications. Int. J. Control 83(12): 2413-2426 (2010) - [j47]Emilia Fridman, Silviu-Iulian Niculescu, Vladimir Rasvan:
Special Issue on Time-Delay Systems. IMA J. Math. Control. Inf. 27(4): 403-404 (2010) - [j46]Kun Liu, Vladimir Suplin, Emilia Fridman:
Stability of linear systems with general sawtooth delay. IMA J. Math. Control. Inf. 27(4): 419-436 (2010) - [j45]Emilia Fridman, Sabine Mondié, Belem Saldivar:
Bounds on the response of a drilling pipe model. IMA J. Math. Control. Inf. 27(4): 513-526 (2010) - [j44]Emilia Fridman, Serge Nicaise, Julie Valein:
Stabilization of Second Order Evolution Equations with Unbounded Feedback with Time-Dependent Delay. SIAM J. Control. Optim. 48(8): 5028-5052 (2010)
2000 – 2009
- 2009
- [j43]Emilia Fridman, Yury Orlov:
Exponential stability of linear distributed parameter systems with time-varying delays. Autom. 45(1): 194-201 (2009) - [j42]Emilia Fridman, Yury Orlov:
An LMI approach to Hinfinity boundary control of semilinear parabolic and hyperbolic systems. Autom. 45(9): 2060-2066 (2009) - [j41]Emilia Fridman, Michel Dambrine:
Control under quantization, saturation and delay: An LMI approach. Autom. 45(10): 2258-2264 (2009) - [j40]Emilia Fridman, Uri Shaked, Kun Liu:
New conditions for delay-derivative-dependent stability. Autom. 45(11): 2723-2727 (2009) - [j39]Emilia Fridman, Gennady Tsodik:
H∞ Control of Distributed and Discrete Delay Systems via Discretized Lyapunov Functional. Eur. J. Control 15(1): 84-94 (2009) - [j38]Vladimir Suplin, Emilia Fridman, Uri Shaked:
H∞ sampled data control of systems with time-delays. Int. J. Control 82(2): 298-309 (2009) - [j37]Alexandre Seuret, Christopher Edwards, Sarah K. Spurgeon, Emilia Fridman:
Static Output Feedback Sliding Mode Control Design via an Artificial Stabilizing Delay. IEEE Trans. Autom. Control. 54(2): 256-265 (2009) - [j36]Xiaoran Han, Emilia Fridman, Sarah K. Spurgeon, Christopher Edwards:
On the Design of Sliding-Mode Static-Output-Feedback Controllers for Systems With State Delay. IEEE Trans. Ind. Electron. 56(9): 3656-3664 (2009) - [c26]Kun Liu, Emilia Fridman:
Stability analysis of networked control systems: A discontiuous Lyapunov functional approach. CDC 2009: 1330-1335 - [c25]Wenjuan Jiang, Emilia Fridman, Alexandre Kruszewski, Jean-Pierre Richard:
Switching controller for stabilization of linear systems with switched time-varying delays. CDC 2009: 7923-7928 - [c24]Xiaoran Han, Emilia Fridman, Sarah K. Spurgeon:
Output feedback sliding mode control of time delay systems with bounded disturbances. CDC 2009: 8417-8422 - [c23]Xiaoran Han, Emilia Fridman, Sarah K. Spurgeon:
Output feedback sliding mode control of systems with bounded disturbances. ECC 2009: 4145-4150 - 2008
- [j35]Emilia Fridman, Michel Dambrine, Nima Yeganefar:
On input-to-state stability of systems with time-delay: A matrix inequalities approach. Autom. 44(9): 2364-2369 (2008) - [j34]Pierdomenico Pepe, Zhong-Ping Jiang, Emilia Fridman:
A new Lyapunov-Krasovskii methodology for coupled delay differential and difference equations. Int. J. Control 81(1): 107-115 (2008) - [j33]Emilia Fridman:
On robust stability of linear neutral systems with time-varying delays. IMA J. Math. Control. Inf. 25(4): 393-407 (2008) - [j32]Eugenii Shustin, Leonid M. Fridman, Emilia Fridman, Fernando Castaños:
Robust Semiglobal Stabilization of the Second Order System by Relay Feedback with an Uncertain Variable Time Delay. SIAM J. Control. Optim. 47(1): 196-217 (2008) - [c22]Emilia Fridman, Yury Orlov:
Hinfinity boundary control of semilinear heat processes and distributed mechanical oscillators: An LMI approach. CDC 2008: 853-858 - [c21]Eugenii Shustin, Leonid M. Fridman, Emilia Fridman, Fernando Castaños:
Robust semiglobal stabilization of the second order system by relay feedback with an uncertain variable time delay. CDC 2008: 2716-2721 - 2007
- [j31]Vladimir Suplin, Emilia Fridman, Uri Shaked:
Sampled-data Hinfinity control and filtering: Nonuniform uncertain sampling. Autom. 43(6): 1072-1083 (2007) - [j30]Eugenii Shustin, Emilia Fridman:
On delay-derivative-dependent stability of systems with fast-varying delays. Autom. 43(9): 1649-1655 (2007) - [c20]Vladimir Suplin, Emilia Fridman, Uri Shaked:
H∞ sampled data control of systems with time-delays. CDC 2007: 426-431 - [c19]Emilia Fridman, Yury Orlov:
On stability of linear parabolic distributed parameter systems with time-varying delays. CDC 2007: 1597-1602 - 2006
- [j29]Emilia Fridman:
A new Lyapunov technique for robust control of systems with uncertain non-small delays. IMA J. Math. Control. Inf. 23(2): 165-179 (2006) - [j28]Emilia Fridman, Uri Shaked:
Input-output approach to stability and L2-gain analysis of systems with time-varying delays. Syst. Control. Lett. 55(12): 1041-1053 (2006) - [j27]Emilia Fridman:
Robust sampled-data H∞ control of linear singularly perturbed systems. IEEE Trans. Autom. Control. 51(3): 470-475 (2006) - [j26]Vladimir Suplin, Emilia Fridman, Uri Shaked:
H∞ control of linear uncertain time-delay systems-a projection approach. IEEE Trans. Autom. Control. 51(4): 680-685 (2006) - [j25]Emilia Fridman:
Stability of systems with uncertain delays: a new "Complete" Lyapunov-krasovskii functional. IEEE Trans. Autom. Control. 51(5): 885-890 (2006) - [j24]Emilia Fridman:
Descriptor discretized Lyapunov functional method: analysis and design. IEEE Trans. Autom. Control. 51(5): 890-897 (2006) - [c18]Pierdomenico Pepe, Z.-P. Jiang, Emilia Fridman:
A New Lyapunov-Krasovskii Methodology for Coupled Delay Differential Difference Equations. CDC 2006: 2565-2570 - 2005
- [j23]Emilia Fridman, Uri Shaked:
Delay-Dependent H∞ Control of Uncertain Discrete Delay Systems. Eur. J. Control 11(1): 29-37 (2005) - [j22]Emilia Fridman, Uri Shaked, Vladimir Suplin:
Input/output delay approach to robust sampled-data Hinfinity control. Syst. Control. Lett. 54(3): 271-282 (2005) - [c17]Alexandre Seuret, Emilia Fridman, Jean-Pierre Richard:
Exponential Stabilization of Delay Neutral Systems under Sampled-Data Control. ISIC 2005: 1281-1285 - [c16]Emilia Fridman, Michael Gil':
A direct frequency domain approach to stability of linear systems with time-varying delays. ISIC 2005: 1544-1547 - [c15]Vladimir Suplin, Emilia Fridman, Uri Shaked:
Input-output approach to the control of time-delayed systems. ISIC 2005: 1556-1560 - [c14]Emilia Fridman:
Robust Sampled-Data Control of Linear Singularly Perturbed Systems. CDC/ECC 2005: 4324-4329 - [c13]Emilia Fridman, Uri Shaked:
Stability and L2-Gain Analysis of Systems with Time-Varying Delays: Input-Output Approach. CDC/ECC 2005: 7175-7180 - 2004
- [j21]Emilia Fridman, Alexandre Seuret, Jean-Pierre Richard:
Robust sampled-data stabilization of linear systems: an input delay approach. Autom. 40(8): 1441-1446 (2004) - [j20]Emilia Fridman, Uri Shaked:
An improved delay-dependent H∞ filtering of linear neutral systems. IEEE Trans. Signal Process. 52(3): 668-673 (2004) - [c12]Emilia Fridman, Uri Shaked:
Input delay approach to robust sampled-data H∞ control. CDC 2004: 1950-1951 - [c11]Vladimir Suplin, Emilia Fridman, Uri Shaked:
A projection approach to H∞ control of time-delay systems. CDC 2004: 4548-4553 - 2003
- [j19]Emilia Fridman, Uri Shaked:
On reachable sets for linear systems with delay and bounded peak inputs. Autom. 39(11): 2005-2010 (2003) - [j18]Emilia Fridman, Frédéric Gouaisbaut, Michel Dambrine, Jean-Pierre Richard:
Sliding mode control of systems with time-varying delays via descriptor approach. Int. J. Syst. Sci. 34(8-9): 553-559 (2003) - [j17]Emilia Fridman:
Output regulation of nonlinear systems with delay. Syst. Control. Lett. 50(2): 81-93 (2003) - [j16]Emilia Fridman, Uri Shaked, Lihua Xie:
Robust H∞ filtering of linear systems with time-varying delay. IEEE Trans. Autom. Control. 48(1): 159-165 (2003) - [j15]Emilia Fridman, Uri Shaked:
Parameter dependent stability and stabilization of uncertain time-delay systems. IEEE Trans. Autom. Control. 48(5): 861-866 (2003) - [c10]Lihua Xie, Chunling Du, Uri Shaked, Emilia Fridman:
An improved robust H2 filtering for linear time-delay systems. ACC 2003: 1890-1895 - [c9]Emilia Fridman, Frédéric Gouaisbaut, Michel Dambrine, Jean-Pierre Richard:
A descriptor approach to sliding mode control of systems with time-varying delays. ECC 2003: 47-52 - [c8]Emilia Fridman, Uri Shaked:
An LMI approach to stability of discrete delay systems. ECC 2003: 1477-1482 - 2002
- [j14]Emilia Fridman:
Effects of small delays on stability of singularly perturbed systems. Autom. 38(5): 897-902 (2002) - [j13]Emilia Fridman, Uri Shaked:
A descriptor system approach to H∞ control of linear time-delay systems. IEEE Trans. Autom. Control. 47(2): 253-270 (2002) - [j12]Emilia Fridman, Uri Shaked:
On delay-dependent passivity. IEEE Trans. Autom. Control. 47(4): 664-669 (2002) - [j11]Emilia Fridman, Uri Shaked:
Correction to "Finite horizon H∞ state-feedback control of continuous-time systems with state delays". IEEE Trans. Autom. Control. 47(9): 1585 (2002) - [j10]Emilia Fridman, Uri Shaked:
An improved stabilization method for linear time-delay systems. IEEE Trans. Autom. Control. 47(11): 1931-1937 (2002) - [c7]Emilia Fridman, Uri Shaked, Lihua Xie:
Robust H2 filtering of linear systems with time delays. CDC 2002: 3877-3882 - 2001
- [j9]Emilia Fridman:
A descriptor system approach to nonlinear singularly perturbed optimal control problem. Autom. 37(4): 543-549 (2001) - [j8]Emilia Fridman:
New Lyapunov-Krasovskii functionals for stability of linear retarded and neutral type systems. Syst. Control. Lett. 43(4): 309-319 (2001) - [j7]Lihua Xie, Emilia Fridman, Uri Shaked:
Robust H∞ control of distributed delay systems with application to combustion control. IEEE Trans. Autom. Control. 46(12): 1930-1935 (2001) - [j6]Emilia Fridman, Uri Shaked:
New bounded real lemma representations for time-delay systems and their applications. IEEE Trans. Autom. Control. 46(12): 1973-1979 (2001) - [j5]Emilia Fridman, Uri Shaked:
A new H∞ filter design for linear time delay systems. IEEE Trans. Signal Process. 49(11): 2839-2843 (2001) - [c6]Emilia Fridman:
A Lyapunov-based approach to stability of descriptor systems with delay. CDC 2001: 2850-2855 - [c5]Emilia Fridman, Uri Shaked:
A new approach to delay-dependent state-feedback H∞ control of time-delay systems. ECC 2001: 2694-2699 - [c4]Emilia Fridman:
Stability of lineat time-delay systems: A descriptor model transformation. ECC 2001: 2700-2705 - [c3]Emilia Fridman:
A LMI approach to stability of descriptor systems with delay. ECC 2001: 2871-2876 - 2000
- [j4]Emilia Fridman, Uri Shaked:
Robust Hinfinity minimum entropy static output-feedback control of singularly perturbed systems. Autom. 36(8): 1181-1188 (2000) - [j3]Emilia Fridman, Uri Shaked:
Finite horizon H∞ state-feedback control of continuous-time systems with state delays. IEEE Trans. Autom. Control. 45(12): 2406-2411 (2000)
1990 – 1999
- 1999
- [c2]Emilia Fridman:
Η∞ State-feedback control of nonlinear singularly perturbed systems. ECC 1999: 503-508 - [c1]L. M. Pridman, Emilia Fridman, Eugenii Shustin:
The phenomenon of the higher order steady modes in the relay control systems with time delay. ECC 1999: 1259-1264 - 1996
- [j2]Emilia Fridman:
Near-optimal H∞ control of linear singularly perturbed systems. IEEE Trans. Autom. Control. 41(2): 236-240 (1996) - 1995
- [j1]Emilia Fridman:
Exact decomposition of linear singularly perturbed H∞-optimal control problem. Kybernetika 31(6): 591-599 (1995)
Coauthor Index
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