Vincent Cocquempot spends much of his time researching Control theory, Nonlinear system, Fault, Fault tolerance and Fault detection and isolation. His Control engineering research extends to the thematically linked field of Control theory. His Control engineering research includes themes of Control system and Control-Lyapunov function.
As part of the same scientific family, Vincent Cocquempot usually focuses on Nonlinear system, concentrating on Sequence and intersecting with Nonlinear control. His Fault study incorporates themes from Filter, Filter design, Reliability engineering, Control reconfiguration and Residual. His Fault detection and isolation research incorporates elements of Sensitivity, Fault modelling, Discrete time and continuous time and Benchmark.
Vincent Cocquempot focuses on Control theory, Fault, Fault detection and isolation, Fault tolerance and Control engineering. Control theory is a component of his Nonlinear system, Observer, Actuator, Control theory and Hybrid system studies. He combines subjects such as Discrete time and continuous time and Estimation with his study of Fault.
Vincent Cocquempot has researched Fault detection and isolation in several fields, including Mathematical optimization, Algorithm, Residual, Benchmark and Robustness. His Fault tolerance research incorporates themes from Electric vehicle, Bounded function and Lyapunov stability. His studies deal with areas such as Control system, Control, Control reconfiguration and Stability as well as Control engineering.
Vincent Cocquempot mainly focuses on Control theory, Fault, Actuator, Mobile robot and Fault tolerance. His work on Control theory is being expanded to include thematically relevant topics such as Control engineering. His Fault study combines topics from a wide range of disciplines, such as Observer, Observer based, Nonlinear system, Frequency domain and Estimation.
He interconnects Stability, Linear system and Fuzzy logic in the investigation of issues within Nonlinear system. In his research, Redundancy, Kinematic controller and System stability is intimately related to Compensation, which falls under the overarching field of Mobile robot. His work investigates the relationship between Fault tolerance and topics such as Adaptive control that intersect with problems in Variable structure system and Distributed parameter system.
Vincent Cocquempot mostly deals with Control theory, Fault, Fault tolerance, Control theory and Observer. His Control theory research is multidisciplinary, relying on both Control engineering, Robot and Control. His study ties his expertise on Observer based together with the subject of Fault.
His research in Control theory intersects with topics in Actuator, Mobile robot and Fault detection and isolation. In Observer, Vincent Cocquempot works on issues like Stability theory, which are connected to Performance index, Mechanical engineering, Disturbance and State vector. Vincent Cocquempot has researched Nonlinear system in several fields, including Linear system and Filter design.
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Fault Accommodation for Nonlinear Dynamic Systems
Bin Jiang;M. Staroswiecki;V. Cocquempot.
IEEE Transactions on Automatic Control (2006)
Adaptive Observer-based Fast Fault Estimation
Ke Zhang;Bin Jiang;Vincent Cocquempot.
International Journal of Control Automation and Systems (2008)
Fault-Tolerant Control for T–S Fuzzy Systems With Application to Near-Space Hypersonic Vehicle With Actuator Faults
Qikun Shen;Bin Jiang;V. Cocquempot.
IEEE Transactions on Fuzzy Systems (2012)
Fault detection and isolation for hybrid systems using structured parity residuals
V. Cocquempot;T. El Mezyani;M. Staroswiecki.
asian control conference (2004)
Adaptive Fuzzy Observer-Based Active Fault-Tolerant Dynamic Surface Control for a Class of Nonlinear Systems With Actuator Faults
Qikun Shen;Bin Jiang;Vincent Cocquempot.
IEEE Transactions on Fuzzy Systems (2014)
Condition-based dynamic maintenance operations planning & grouping. Application to commercial heavy vehicles
Keomany Bouvard;Samuel Artus;Christophe Bérenguer;Vincent Cocquempot.
Reliability Engineering & System Safety (2011)
Fault estimation in nonlinear uncertain systems using robust/sliding-mode observers
B. Jiang;M. Staroswiecki;V. Cocquempot.
IEE Proceedings: Control theory and applications (2004)
Fault Tolerant Control and Hybrid Systems
Hao Yang;Bin Jiang;Vincent Cocquempot.
Fuzzy Logic System-Based Adaptive Fault-Tolerant Control for Near-Space Vehicle Attitude Dynamics With Actuator Faults
Qikun Shen;Bin Jiang;V. Cocquempot.
IEEE Transactions on Fuzzy Systems (2013)
Stabilization of Switched Nonlinear Systems With All Unstable Modes: Application to Multi-Agent Systems
Hao Yang;Bin Jiang;V. Cocquempot;Huaguang Zhang.
IEEE Transactions on Automatic Control (2011)
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