default search action
Google
Google Scholar
Semantic Scholar
Internet Archive Scholar
CiteSeerX
ORCIDAli Zemouche
Person information
SPARQL queries 
Refine list
refinements active!
zoomed in on ?? of ?? records
view refined list in
export refined list as
showing all ?? records
2020 – today
- 2024
[j49]Shengya Meng, Fanwei Meng, Fan Zhang, Qi Li, Yu Zhang, Ali Zemouche:
Observer design method for nonlinear generalized systems with nonlinear algebraic constraints with applications. Autom. 162: 111512 (2024)- [j48]Q. H. Nguyen, O. Sadki
, Hugues Rafaralahy, M. Haddad, Ali Zemouche:
Cyberattack Detection by Using a Discrete-Time Model-Based Unknown Input Observer. IEEE Control. Syst. Lett. 8: 856-861 (2024) - [j47]Hamidreza Alai, Ali Zemouche, Rajesh Rajamani:
Vehicle Trajectory Estimation Using a High-Gain Multi-Output Nonlinear Observer. IEEE Trans. Intell. Transp. Syst. 25(6): 5733-5742 (2024) - [c83]Shengya Meng, F. Meng, F. Zhang, Marouane Alma, M. Haddad, Ali Zemouche:
Nonlinear Observer Design for Vehicle Lateral Load Transfer Ratio Estimation. ACC 2024: 1350-1354 - [c82]H. Bessafa, Zehor Belkhatir, Cédric Delattre, Redouane Khemmar, Ali Zemouche, Rajesh Rajamani:
Radar Sensor-Based Longitudinal Motion Estimation by Using a Generalized High-Gain Observer. ACC 2024: 4919-4923 - [c81]Echrak Chnib, Patrizia Bagnerini, Mauro Gaggero, Ali Zemouche:
Parameter Estimation of a Dynamic Growth Model for Lettuce in an Adaptive Vertical Farm. CASE 2024: 1169-1174 - [c80]Shivaraj Mohite, Marouane Alma, Ali Zemouche:
An LMI-Based Observer Design Method for a Class of Nonlinear Systems. ECC 2024: 1282-1287 - [c79]Echrak Chnib, Patrizia Bagnerini, Mauro Gaggero, Ali Zemouche:
Observer Design by Using a New Output-Based Dynamic Extension Technique. ECC 2024: 1736-1740 - [c78]Hasni Arezki, Ali Zemouche, Patrizia Bagnerini:
Observer Design for Nonlinear Systems with Delayed Output Measurement. ECC 2024: 1747-1751 - 2023
- [j46]Ali Zemouche, Rajesh Rajamani, Gridsada Phanomchoeng, Boulaid Boulkroune, Hugues Rafaralahy, Michel Zasadzinski:
Corrigendum to "Circle criterion based H∞ observer design for Lipschitz and monotonic nonlinear systems - Enhanced LMI conditions and constructive discussions" [Automatica 85 (2017) 412-425]. Autom. 147: 110578 (2023) - [j45]Hasni Arezki, Ali Zemouche:
Simple But Useful Contributions to High-Gain Observer for Non-Triangular Systems. IEEE Control. Syst. Lett. 7: 3343-3348 (2023) - [j44]Hasni Arezki, Ali Zemouche, Angelo Alessandri, Patrizia Bagnerini:
LMI Design Procedure for Incremental Input/Output-to-State Stability in Nonlinear Systems. IEEE Control. Syst. Lett. 7: 3403-3408 (2023) - [j43]Shivaraj Mohite, Marouane Alma, Ali Zemouche:
Observer-Based Stabilization of Lipschitz Nonlinear Systems by Using a New Matrix-Multiplier-Based LMI Approach. IEEE Control. Syst. Lett. 7: 3723-3728 (2023) - [j42]Dyhia Bouhadjra, Angelo Alessandri, Patrizia Bagnerini, Ali Zemouche:
Moving horizon estimation of Amnioserosa cell dynamics during Drosophila dorsal closure. Eur. J. Control 72: 100829 (2023) - [j41]Hassiba Nechaf, Ali Zemouche, Mohammed Mostefai, Taous-Meriem Laleg-Kirati, Nadya Djeghali, Fazia Bedouhene:
Linear matrix inequality-based observer design methods for a class of nonlinear systems with delayed output measurements. J. Syst. Control. Eng. 237(3): 433-446 (2023) - [j40]Langwen Zhang, Bohui Wang, Yuanshi Zheng, Ali Zemouche, Xudong Zhao, Chao Shen:
Robust Packetized MPC for Networked Systems Subject to Packet Dropouts and Input Saturation With Quantized Feedback. IEEE Trans. Cybern. 53(11): 6987-6997 (2023) - [c77]Hamidreza Alai, Ali Zemouche, Rajesh Rajamani:
On Challenges in Coordinate Transformation for Using a High-Gain Multi-Output Nonlinear Observer*. ACC 2023: 1024-1029 - [c76]Hamidreza Movahedi, Ali Zemouche, Rajesh Rajamani:
Comparative analysis of a nonlinear observer and nonlinear Kalman filters for magnetic position estimation. ACC 2023: 1030-1035 - [c75]H. Bessafa, Cédric Delattre, Zehor Belkhatir, Ali Zemouche, Rajesh Rajamani:
Nonlinear Observer Design Methods Based on High-Gain Methodology and LMIs with Application to Vehicle Tracking. ACC 2023: 4735-4740 - [c74]Hasni Arezki, Ali Zemouche, Patrizia Bagnerini, Saïd Djennoune:
LMI Feasibility Analysis in Observer Design for Some Families of Nonlinear Systems. CDC 2023: 2645-2650 - [c73]Shivaraj Mohite, Marouane Alma, Ali Zemouche:
Design of a Nonlinear Observer for a Class of Locally Lipschitz Systems by Using Input-to-State Stability: An LMI Approach. CDC 2023: 7501-7506 - [c72]Hasni Arezki, Angelo Alessandri, Ali Zemouche:
Robust Moving Horizon Estimation for Lateral Vehicle Dynamics. ECC 2023: 1-6 - [c71]Shivaraj Mohite, Marouane Alma, Ali Zemouche, M. Haddad:
State Estimation of Longitudinal Vehicle Model Using H∞ LMI-Based Nonlinear Observer. MED 2023: 293-298 - [c70]D. J. Codjia, Latifa Boutat-Baddas, Marouane Alma, M. Haddad, Ali Zemouche:
Vehicle Rollover Index Estimation Using a Nonlinear Unknown Input Observer. MED 2023: 446-451 - 2022
- [j39]Ania Adil, Abdelghani Hamaz, Ibrahima N'Doye, Ali Zemouche, Taous-Meriem Laleg-Kirati, Fazia Bedouhene:
On high-gain observer design for nonlinear systems with delayed output measurements. Autom. 141: 110281 (2022) - [j38]Ibrahima N'Doye, Ding Zhang, Ania Adil, Ali Zemouche, Rajesh Rajamani, Taous-Meriem Laleg-Kirati:
An LMI-based discrete time nonlinear observer for Light-Emitting Diode optical communication. Autom. 141: 110309 (2022) - [j37]Ali Zemouche, Rajesh Rajamani:
Observer Design for Non-Globally Lipschitz Nonlinear Systems Using Hilbert Projection Theorem. IEEE Control. Syst. Lett. 6: 2581-2586 (2022) - [j36]Ali Zemouche, Rajesh Rajamani:
LMI-Based Observer Design for Non-Globally Lipschitz Systems Using Kirszbraun-Valentine Extension Theorem. IEEE Control. Syst. Lett. 6: 2617-2622 (2022) - [j35]Hamid Reza Karimi, Ning Wang, Xu Jin, Ali Zemouche:
Guest Editorial: Special issue on neural networks-based reinforcement learning control of autonomous systems. Neurocomputing 490: 226-228 (2022) - [j34]Alima Chaouche, Ali Zemouche, Messaoud Ramdani, Khadidja Chaib Draa, Cédric Delattre:
Unknown input estimation algorithms for a class of LPV/nonlinear systems with application to wastewater treatment process. J. Syst. Control. Eng. 236(7): 1372-1385 (2022) - [j33]Minh Cuong Nguyen, Ali Zemouche, Hieu Trinh:
Observer-Based Control Design for Nonlinear Systems With Unknown Delays. IEEE Trans. Circuits Syst. II Express Briefs 69(3): 1327-1331 (2022) - [j32]Fan Zhang, Guanghui Wen, Ali Zemouche, Wenwu Yu, Ju H. Park:
Output-Feedback Self-Synchronization of Directed Lur'e Networks via Global Connectivity. IEEE Trans. Cybern. 52(7): 6490-6503 (2022) - [j31]Ning Wang, Guanghui Wen, Ying Wang, Fan Zhang, Ali Zemouche:
Fuzzy Adaptive Cooperative Consensus Tracking of High-Order Nonlinear Multiagent Networks With Guaranteed Performances. IEEE Trans. Cybern. 52(9): 8838-8850 (2022) - [c69]Dyhia Bouhadjra, Angelo Alessandri, Patrizia Bagnerini, Ali Zemouche:
A High-Gain Observer for Stage-Structured Susceptible-Infectious Epidemic Model with Linear Incidence Rate. ACC 2022: 1336-1340 - [c68]Hasni Arezki, Fan Zhang, Ali Zemouche:
A HG/LMI-Based Observer for a Tumor Growth Model. ECC 2022: 259-263 - [c67]Dyhia Bouhadjra, Angelo Alessandri, Patrizia Bagnerini, Ali Zemouche:
High-Gain Estimation of mRNA and Protein Concentrations of a Genetic Regulatory Network. ECC 2022: 578-583 - [c66]Shivaraj Mohite, Marouane Alma, Ali Zemouche:
A New Matrix Multiplier-Based LMI Approach for Nonlinear Observers. MED 2022: 91-96 - 2021
- [j30]Khadidja Chaib-Draa, Ali Zemouche, Fazia Bedouhene, Rajesh Rajamani, Yan Wang, Hamid Reza Karimi, Taous-Meriem Laleg-Kirati:
Finite-time estimation algorithms for LPV discrete-time systems with application to output feedback stabilization. Autom. 125: 109436 (2021) - [j29]Hassène Gritli, Ali Zemouche, Safya Belghith:
On LMI conditions to design robust static output feedback controller for continuous-time linear systems subject to norm-bounded uncertainties. Int. J. Syst. Sci. 52(1): 12-46 (2021) - [j28]Xiaoling Wang, Housheng Su, Fan Zhang, Ali Zemouche, Guanrong Chen:
Interval Observer Design and Consensus of MultiAgent Systems with Time-Varying Interval Uncertainties. SIAM J. Control. Optim. 59(5): 3392-3417 (2021) - [c65]Dyhia Bouhadjra, Angelo Alessandri, Patrizia Bagnerini, Fazia Bedouhene, Ali Zemouche:
Modeling and Estimation of Amnioserosa Cell Mechanical Behavior Using Moving Horizon Estimation. ACC 2021: 1583-1588 - [c64]Hasni Arezki, Dyhia Bouhadjra, Khadidja Chaib-Draa, Ali Zemouche, Ibrahima N'Doye, Taous-Meriem Laleg-Kirati:
LMI Feasibility Improvement to Design Observers for a Class of Lipschitz Nonlinear Systems. CDC 2021: 6151-6155 - [c63]Hasni Arezki, Khadidja Chaib-Draa, Ali Zemouche, Chee Pin Tan:
Finite-Time Estimation of a Class of Switched Discrete-Time Linear Systems Subject to Delayed-Output Measurements. ECC 2021: 276-280 - [c62]Ania Adil, Ibrahima N'Doye, Abdelghani Hamaz, Ali Zemouche, Taous-Meriem Laleg-Kirati:
Prescribed-Time High-Gain Nonlinear Observer Design for Triangular Systems. ICSC 2021: 252-257 - 2020
- [j27]Rajesh Rajamani, Woongsun Jeon, Hamidreza Movahedi, Ali Zemouche:
On the need for switched-gain observers for non-monotonic nonlinear systems. Autom. 114: 108814 (2020) - [j26]Dyhia Bouhadjra, Aissa Kheldoun, Ali Zemouche:
Performance analysis of stand-alone six-phase induction generator using heuristic algorithms. Math. Comput. Simul. 167: 231-249 (2020) - [c61]Rajesh Rajamani, Woongsun Jeon, Hamidreza Movahedi, Ali Zemouche:
Vehicle Motion Estimation Using A Switched Gain Nonlinear Observer. ACC 2020: 3047-3052 - [c60]Dyhia Bouhadjra, Ali Zemouche, Angelo Alessandri, Patrizia Bagnerini:
High-Gain Nonlinear Observer Using System State Augmentation. CDC 2020: 4182-4187
2010 – 2019
- 2019
- [j25]Farzin Nemati, Seyed Mostafa Safavi Hamami, Ali Zemouche:
A nonlinear observer-based approach to fault detection, isolation and estimation for satellite formation flight application. Autom. 107: 474-482 (2019) - [j24]Khadidja Chaib Draa, Ali Zemouche, Marouane Alma, Holger Voos, Mohamed Darouach:
Nonlinear observer-based control with application to an anaerobic digestion process. Eur. J. Control 45: 74-84 (2019) - [j23]Abdelghani Hamaz, Khadidja Chaib Draa, Fazia Bedouhene, Ali Zemouche, Rajesh Rajamani:
Observer design of descriptor nonlinear system with nonlinear outputs by using W1, 2-optimality criterion. J. Frankl. Inst. 356(6): 3531-3553 (2019) - [j22]Yan Wang, Rajesh Rajamani, Ali Zemouche:
A quadratic matrix inequality based PID controller design for LPV systems. Syst. Control. Lett. 126: 67-76 (2019) - [j21]Ali Zemouche, Fan Zhang, Frédéric Mazenc, Rajesh Rajamani:
High-Gain Nonlinear Observer With Lower Tuning Parameter. IEEE Trans. Autom. Control. 64(8): 3194-3209 (2019) - [c59]Hamidreza Movahedi, Ali Zemouche, Rajesh Rajamani:
Linear Position Estimation on Smart Actuators Using a Nonlinear Observer. ACC 2019: 453-458 - [c58]Khadidja Chaib Draa, Ali Zemouche, Rajesh Rajamani, Fazia Bedouhene, Taous-Meriem Laleg-Kirati:
Finite-Time State Estimation of Discrete-Time Linear Systems With Some Extensions. Application to Steering Lateral Vehicle Model. CDC 2019: 385-389 - [c57]Ankush Chakrabarty, Ali Zemouche, Rajesh Rajamani, Mouhacine Benosman:
Robust Data-Driven Neuro-Adaptive Observers With Lipschitz Activation Functions. CDC 2019: 2862-2867 - [c56]Khadidja Chaib-Draa, Ali Zemouche, Rajesh Rajamani, Y. Wang, Fazia Bedouhene, Hamid Reza Karimi, Taous-Meriem Laleg-Kirati:
State Estimation of LPV Discrete-Time Systems with Application to Output Feedback Stabilization. CDC 2019: 3788-3792 - [c55]Fan Zhang, Haili Liang, Guanghui Wen, Ali Zemouche, Wenwu Yu:
Absolute Stabilization of Lur'e Systems by Periodically Intermittent Control. ICCA 2019: 1102-1107 - 2018
- [j20]Ali Zemouche, Abdel Aitouche, Marouane Alma, Souad Bezzaoucha Rebaï:
Advanced control and observer design for nonlinear systems via LMIs. Eur. J. Control 44: 1-2 (2018) - [j19]Yan Wang, Ali Zemouche, Rajesh Rajamani:
A sequential LMI approach to design a BMI-based multi-objective nonlinear observer. Eur. J. Control 44: 50-57 (2018) - [c54]Woongsun Jeon, Ali Zemouche, Rajesh Rajamani:
Nonlinear Observer for Vehicle Motion Tracking. ACC 2018: 1-4 - [c53]Yan Wang, Rajesh Rajamani, Ali Zemouche:
Multi-Objective Nonlinear Observer Design using BMIs. ACC 2018: 1346-1351 - [c52]Khadidja Chaib Draa, Holger Voos, Marouane Alma, Ali Zemouche, Mohamed Darouach:
LMI-Based Trajectory Tracking for a Class of Nonlinear Systems with Application to an Anaerobic Digestion Process. ACC 2018: 4393-4397 - [c51]C. Bennani, Fazia Bedouhene, Ali Zemouche, Hamza Bibi, Khadidja Chaib Draa, Abdel Aitouche, Rajesh Rajamani:
Robust H∞ Observer-Based Stabilization of Linear Discrete-Time Systems with Parameter Uncertaintes. ACC 2018: 4398-4402 - [c50]Gridsada Phanomchoeng, Ali Zemouche, W. Jeons, Rajesh Rajamani, Frédéric Mazenc:
H∞ Observer for Descriptor Nonlinear Systems with Nonlinear Output Equations. ACC 2018: 5952-5956 - [c49]Abdelghani Hamaz, Khadidja Chaib Draa, Ali Zemouche, Fazia Bedouhene, Rajesh Rajamani:
Observer Design of Descriptor Nonlinear System with N onlinear Outputs by Using W12 -Optimality Criterion. CDC 2018: 6556-6560 - [c48]Ibrahim Alaridh, Abdel Aitouche, Ali Zemouche, Boulaïd Boulkroune:
Actuator Fault Detection for Vehicle Lateral Dynamics. CoDIT 2018: 1110-1116 - [c47]Ibrahim Alaridh, Abdel Aitouche, Ali Zemouche:
Fault Sensor Detection and Estimation based on LPV Observer for Vehicle Lateral Dynamics. ICSC 2018: 71-77 - 2017
- [j18]Ali Zemouche, Rajesh Rajamani, Gridsada Phanomchoeng, Boulaïd Boulkroune, Hugues Rafaralahy, Michel Zasadzinski:
Circle criterion-based H∞ observer design for Lipschitz and monotonic nonlinear systems - Enhanced LMI conditions and constructive discussions. Autom. 85: 412-425 (2017) - [j17]Hamza Bibi, Fazia Bedouhene, Ali Zemouche, Hamid Reza Karimi, Houria Kheloufi:
Output feedback stabilization of switching discrete-time linear systems with parameter uncertainties. J. Frankl. Inst. 354(14): 5895-5918 (2017) - [c46]Gridsada Phanomchoeng, Ali Zemouche, Rajesh Rajamani:
Real-time automotive slip angle estimation with extended H∞ circle criterion observer for nonlinear output system. ACC 2017: 1636-1641 - [c45]Ali Zemouche:
Observer design for nonlinear systems by using high-gain and LPV/LMI-based technique. ACC 2017: 2624-2629 - [c44]Frédéric Mazenc, Ali Zemouche, Silviu-Iulian Niculescu:
Observer with small gains in the presence of a long delay in the measurements. CDC 2017: 4327-4332 - [c43]Hamza Bibi, Ali Zemouche, Abdel Aitouche, Khadidja Chaib Draa, Fazia Bedouhene:
Robust observer-based H∞ stabilization of switched discrete-time linear systems with parameter uncertainties. CDC 2017: 5292-5297 - [c42]Khadidja Chaib Draa, Holger Voos, Marouane Alma, Ali Zemouche, Mohamed Darouach:
LMI-based discrete-time nonlinear state observer for an anaerobic digestion model. ICSC 2017: 273-278 - [c41]C. Bennani, Fazia Bedouhene, Ali Zemouche, Hamza Bibi, Abdel Aitouche:
A modified two-step LMI method to design observer-based controller for linear discrete-time systems with parameter uncertainties. ICSC 2017: 279-284 - [c40]Hamza Bibi, Fazia Bedouhene, Ali Zemouche, Abdel Aitouche:
ℋ∞ observer-based stabilization of switched discrete-time linear systems. ICSC 2017: 285-290 - [c39]Khadidja Chaib Draa, Holger Voos, Marouane Alma, Ali Zemouche, Mohamed Darouach:
LMI-based H∞ nonlinear state observer design for anaerobic digestion model. MED 2017: 678-683 - [c38]Khadidja Chaib Draa, Marouane Alma, Holger Voos, Ali Zemouche, Mohamed Darouach:
LMI-based invariant like nonlinear state observer for anaerobic digestion model. MED 2017: 684-689 - 2016
- [c37]Ali Zemouche, Rajesh Rajamani, Boulaid Boulkroune, Hugues Rafaralahy, Michel Zasadzinski:
Convex optimization based dual gain observer design for Lipschitz nonlinear systems. ACC 2016: 125-130 - [c36]Ali Zemouche, Rajesh Rajamani, Boulaid Boulkroune, Hugues Rafaralahy, Michel Zasadzinski:
H∞ circle criterion observer design for Lipschitz nonlinear systems with enhanced LMI conditions. ACC 2016: 131-136 - [c35]Ali Zemouche, Mohamed Zerrougui, Boulaid Boulkroune, Rajesh Rajamani, Michel Zasadzinski:
A new LMI observer-based controller design method for discrete-time LPV systems with uncertain parameters. ACC 2016: 2802-2807 - [c34]Houria Kheloufi, Ali Zemouche, Fazia Bedouhene, C. Bennani, Hieu Trinh:
New decentralized control design for interconnected nonlinear discrete-time systems with nonlinear interconnections. CDC 2016: 6030-6035 - [c33]Angelo Alessandri, Ali Zemouche:
On the enhancement of high-gain observers for state estimation of nonlinear systems. CDC 2016: 6278-6283 - [c32]Hamza Bibi, Fazia Bedouhene, Ali Zemouche, Houria Kheloufi, Hieu Trinh:
Observer-based control design via LMIs for a class of switched discrete-time linear systems with parameter uncertainties. CDC 2016: 7234-7239 - [c31]Ali Zemouche, Rajesh Rajamani, Hieu Trinh, Michel Zasadzinski:
A new LMI based H∞ observer design method for Lipschitz nonlinear systems. ECC 2016: 2011-2016 - [c30]Ali Zemouche, Mohamed Zerrougui, Boulaid Boulkroune, Fazia Bedouhene, H. Souley Ali, Michel Zasadzinski:
H∞ observer-based stabilization for Lipschitz nonlinear systems. ECC 2016: 2017-2022 - 2015
- [j16]Houria Kheloufi, Fazia Bedouhene, Ali Zemouche, Angelo Alessandri:
Observer-based stabilisation of linear systems with parameter uncertainties by using enhanced LMI conditions. Int. J. Control 88(6): 1189-1200 (2015) - [c29]Ali Zemouche, Rajesh Rajamani, Houria Kheloufi, Fazia Bedouhene:
Observer-based stabilization via LMIs for linear uncertain systems. CDC 2015: 7286-7291 - [c28]Bassem Bhiri, Cédric Delattre, Michel Zasadzinski, Harouna Souley Ali, Ali Zemouche, Kamel Abderrahim:
Finite time ℋ∞ control via dynamic output feedback for linear continuous systems with norm-bounded disturbances. ECC 2015: 2940-2945 - [c27]Bassem Bhiri, Cédric Delattre, Michel Zasadzinski, H. Souley Ali, Ali Zemouche, Kamel Abderrahim:
Finite time H∞ controller design based on finite time H∞ functional filter for linear continuous systems. ICSC 2015: 460-465 - 2014
- [j15]Bertrand Grandvallet, Ali Zemouche, Mohamed Boutayeb, Sébastien Changey:
Real-Time Attitude-Independent Three-Axis Magnetometer Calibration for Spinning Projectiles: A Sliding Window Approach. IEEE Trans. Control. Syst. Technol. 22(1): 255-264 (2014) - [c26]Boulaid Boulkroune, Olivier Pagès, Abdel Aitouche, Ali Zemouche, Ahmed El Hajjaji:
H∞-based fault diagnosis for diesel engines. CCA 2014: 653-658 - [c25]Lama Hassan, Ali Zemouche, Mohamed Boutayeb:
A new observer-based controller design method for a class of time-varying delay systems with Lipschitz nonlinearities. ACC 2014: 4163-4168 - [c24]Lama Hassan, Ali Zemouche, Mohamed Boutayeb:
Delay-dependent robust unknown input observer for nonlinear time-delay systems. CDC 2014: 1185-1190 - [c23]Angelo Alessandri, Fazia Bedouhene, Houria Kheloufi, Ali Zemouche:
Output feedback control for a class of switching discrete-time linear systems. CDC 2014: 1533-1538 - [c22]Ali Zemouche, Angelo Alessandri:
A new LMI condition for decentralized observer-based control of linear systems with nonlinear interconnections. CDC 2014: 3125-3130 - [c21]Houria Kheloufi, Ali Zemouche, Fazia Bedouhene, Harouna Souley Ali:
Robust ℋ∞ observer-based controller for lipschitz nonlinear discrete-time systems with parameter uncertainties. CDC 2014: 4336-4341 - [c20]Cédric Delattre, Bassem Bhiri, Ali Zemouche, Harouna Souley Ali, Michel Zasadzinski, Kamel Abderrahim:
Finite-time H∞ functional filter design for a class of descriptor linear systems. MED 2014: 1572-1577 - 2013
- [j14]Ali Zemouche, Mohamed Boutayeb:
On LMI conditions to design observers for Lipschitz nonlinear systems. Autom. 49(2): 585-591 (2013) - [j13]Houria Kheloufi, Ali Zemouche, Fazia Bedouhene, Mohamed Boutayeb:
On LMI conditions to design observer-based controllers for linear systems with parameter uncertainties. Autom. 49(12): 3700-3704 (2013) - [j12]Boulaid Boulkroune, Souheil Halabi, Ali Zemouche:
ℋ-/ℋ∞ fault detection filter for a class of nonlinear descriptor systems. Int. J. Control 86(2): 253-262 (2013) - [j11]Bertrand Grandvallet, Ali Zemouche, H. Souley Ali, Mohamed Boutayeb:
New LMI Condition for Observer-Based HINFINITY Stabilization of a Class of Nonlinear Discrete-Time Systems. SIAM J. Control. Optim. 51(1): 784-800 (2013) - [j10]Lama Hassan, Ali Zemouche, Mohamed Boutayeb:
Robust Unknown Input Observers for Nonlinear Time-Delay Systems. SIAM J. Control. Optim. 51(4): 2735-2752 (2013) - [j9]Ali Zemouche, Mohamed Boutayeb:
Comments on "A Note on Observers for Discrete-Time Lipschitz Nonlinear Systems". IEEE Trans. Circuits Syst. II Express Briefs 60-II(1): 56-60 (2013) - [c19]Houria Kheloufi, Fazia Bedouhene, Ali Zemouche, Angelo Alessandri:
Convex optimization approach to observer-based stabilization of linear systems with parameter uncertainties. CDC 2013: 1125-1130 - [c18]Angelo Alessandri, Fazia Bedouhene, Houria Kheloufi, Ali Zemouche:
Output feedback control for discrete-time linear systems by using luenberger observers under unknown switching. CDC 2013: 5321-5326 - [c17]Adrien Drouot, Edouard Richard, Mohamed Boutayeb, Michel Zasadzinski, Ali Zemouche:
Adaptive output tracking control design of a gun launched micro aerial vehicle based on approximate feedback linearization. ECC 2013: 155-160 - [c16]Houria Kheloufi, Ali Zemouche, Fazia Bedouhene, Mohamed Boutayeb:
A new observer-based stabilization method for linear systems with uncertain parameters. ECC 2013: 1120-1125 - [c15]Bertrand Grandvallet, Mohamed Boutayeb, Ali Zemouche:
A multiplicative filter for GLMAV attitude estimation. ECC 2013: 3326-3331 - [c14]Boulaid Boulkroune, Michel Kinnaert, Ali Zemouche:
POD-based state estimation of simulated moving bed chromatographic processes. ECC 2013: 3408-3414 - 2012
- [c13]Bertrand Grandvallet, Ali Zemouche, H. Souley Ali, Mohamed Boutayeb:
Observer based ℌ∞ controllers for a class of nonlinear lipschitz discrete-time systems. CDC 2012: 4259-4264 - [c12]Ali Zemouche, Mohamed Boutayeb:
Observers for continuous-time Lipschitz nonlinear systems. Analysis and comparisons. CDC 2012: 4774-4779 - [c11]Ali Zemouche, Mohamed Boutayeb:
Observers design for discrete-time Lipschitz nonlinear systems. State of the art and new results. CDC 2012: 4780-4785 - 2011
- [j8]Ali Zemouche, Mohamed Boutayeb:
Observer synthesis method for Lipschitz nonlinear discrete-time systems with time-delay: An LMI approach. Appl. Math. Comput. 218(2): 419-429 (2011) - [j7]Lama Hassan, Ali Zemouche, Mohamed Boutayeb:
ℋ∞ Observers design for a class of nonlinear time-delay systems in descriptor form. Int. J. Control 84(10): 1653-1663 (2011) - 2010
- [c10]Bertrand Grandvallet, Ali Zemouche, Mohamed Boutayeb, Sébastien Changey:
A sliding window filter for real-time attitude independent TAM calibration. CDC 2010: 467-472
2000 – 2009
- 2009
- [j6]Ali Zemouche, Mohamed Boutayeb:
A unified Hinfinity adaptive observer synthesis method for a class of systems with both Lipschitz and monotone nonlinearities. Syst. Control. Lett. 58(4): 282-288 (2009) - [j5]Ali Zemouche, Mohamed Boutayeb:
Nonlinear-Observer-Based Hinfty Synchronization and Unknown Input Recovery. IEEE Trans. Circuits Syst. I Regul. Pap. 56-I(8): 1720-1731 (2009) - [j4]Ali Zemouche, Mohamed Boutayeb:
Sobolev Norms-Based State Estimation and Input Recovery for a Class of Nonlinear Systems. Design and Experimental Results. IEEE Trans. Signal Process. 57(3): 1021-1029 (2009) - [c9]Bertrand Grandvallet, Ali Zemouche, Mohamed Boutayeb, Sébastien Changey:
A moving horizon ℋ∞observer for discrete-time systems. ECC 2009: 3978-3982 - 2008
- [j3]Ali Zemouche, Mohamed Boutayeb, Gabriela Iuliana Bara:
Observer design for a class of Lipschitz time-delay systems. Int. J. Model. Identif. Control. 4(1): 28-36 (2008) - [j2]Ali Zemouche, Mohamed Boutayeb, Gabriela Iuliana Bara:
Observers for a class of Lipschitz systems with extension to Hinfinity performance analysis. Syst. Control. Lett. 57(1): 18-27 (2008) - [c8]Bertrand Grandvallet, Ali Zemouche, Mohamed Boutayeb, Sébastien Changey:
A software based approach for autonomous projectile attitude and position estimation. CSTST 2008: 378-383 - 2007
- [c7]Ali Zemouche, Mohamed Boutayeb, G. Iulia Bara:
Observer Design for a Class of Nonlinear Time-Delay Systems. ACC 2007: 1676-1681 - [c6]Ali Zemouche, Mohamed Boutayeb:
A new observer design method for a class of Lipschitz nonlinear discrete-time systems with time-delay. Extension to H∞ performance analysis. CDC 2007: 414-419 - 2006
- [j1]Ali Zemouche, Mohamed Boutayeb:
Observer Design for Lipschitz Nonlinear Systems: The Discrete-Time Case. IEEE Trans. Circuits Syst. II Express Briefs 53-II(8): 777-781 (2006) - [c5]Ali Zemouche, Mohamed Boutayeb, G. Iulia Bara:
On observers design for nonlinear time-delay systems. ACC 2006: 1-6 - [c4]Ali Zemouche, Mohamed Boutayeb, G. Iulia Bara:
Observer Design for a Certain Class of Nonlinear Systems. CDC 2006: 1673-1678 - 2005
- [c3]Ali Zemouche, Mohamed Boutayeb, G. Iulia Bara:
Observer Design for Nonlinear Systems: An Approach Based on the Differential Mean Value Theorem. CDC/ECC 2005: 6353-6358 - [c2]Abdellatif El Assoudi, Ali Zemouche, Mohamed Boutayeb, G. Iulia Bara, Hassan Hammouri:
A High Gain Observer for a Class of Implicit Systems. CDC/ECC 2005: 6359-6363 - [c1]Gabriela Iuliana Bara, Ali Zemouche, Mohamed Boutayeb:
Observer synthesis for Lipschitz discrete-time systems. ISCAS (4) 2005: 3195-3198
Coauthor Index
manage site settings
To protect your privacy, all features that rely on external API calls from your browser are turned off by default. You need to opt-in for them to become active. All settings here will be stored as cookies with your web browser. For more information see our F.A.Q.
Unpaywalled article links
Add open access links from 
to the list of external document links (if available).
Privacy notice: By enabling the option above, your browser will contact the API of unpaywall.org to load hyperlinks to open access articles. Although we do not have any reason to believe that your call will be tracked, we do not have any control over how the remote server uses your data. So please proceed with care and consider checking the Unpaywall privacy policy.
Archived links via Wayback Machine
For web page which are no longer available, try to retrieve content from the 
of the Internet Archive (if available).
Privacy notice: By enabling the option above, your browser will contact the API of archive.org to check for archived content of web pages that are no longer available. Although we do not have any reason to believe that your call will be tracked, we do not have any control over how the remote server uses your data. So please proceed with care and consider checking the Internet Archive privacy policy.
Reference lists
Add a list of references from 
, 
, and 
to record detail pages.
load references from crossref.org and opencitations.net
Privacy notice: By enabling the option above, your browser will contact the APIs of crossref.org, opencitations.net, and semanticscholar.org to load article reference information. Although we do not have any reason to believe that your call will be tracked, we do not have any control over how the remote server uses your data. So please proceed with care and consider checking the Crossref privacy policy and the OpenCitations privacy policy, as well as the AI2 Privacy Policy covering Semantic Scholar.
Citation data
Add a list of citing articles from and to record detail pages.
load citations from opencitations.net
Privacy notice: By enabling the option above, your browser will contact the API of opencitations.net and semanticscholar.org to load citation information. Although we do not have any reason to believe that your call will be tracked, we do not have any control over how the remote server uses your data. So please proceed with care and consider checking the OpenCitations privacy policy as well as the AI2 Privacy Policy covering Semantic Scholar.
OpenAlex data
Load additional information about publications from 
.
Privacy notice: By enabling the option above, your browser will contact the API of openalex.org to load additional information. Although we do not have any reason to believe that your call will be tracked, we do not have any control over how the remote server uses your data. So please proceed with care and consider checking the information given by OpenAlex.
last updated on 2024-11-08 20:28 CET by the dblp team
all metadata released as open data under CC0 1.0 license
see also: Terms of Use | Privacy Policy | Imprint
dblp was originally created in 1993 at:
since 2018, dblp has been operated and maintained by:
the dblp computer science bibliography is funded and supported by:
