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Michael A. Malisoff
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2020 – today
- 2023
[j75]Frédéric Mazenc
, Michael Malisoff, Laurent Burlion:
Almost Fixed Time Observers for Parameters and for State Variables of Nonlinear Systems. IEEE Control. Syst. Lett. 7: 667-672 (2023)- [j74]Michael Malisoff, Frédéric Mazenc, Corina Barbalata:
Event-Triggered Control Under Unknown Input and Unknown Measurement Delays Using Interval Observers. IEEE Control. Syst. Lett. 7: 823-828 (2023) - [j73]Frédéric Mazenc, Michael Malisoff, Jackson Knox:
Discrete-Time Trajectory-Based Stabilization Approach Using Interval Observer. IEEE Control. Syst. Lett. 7: 3175-3180 (2023) - [j72]Indra Narayana Sandilya Bhogaraju, Juan Nunez Forestieri, Michael Malisoff, Mehdi Farasat:
Delay-Compensating Stabilizing Feedback Controller for a Grid-Connected PV/Hybrid Energy Storage System. IEEE Trans. Control. Syst. Technol. 31(4): 1875-1883 (2023) - [c74]Rick Schieni, Chengwei Zhao, Michael Malisoff, Laurent Burlion:
Reference Governor Design in the Presence of Uncertain Polynomial Constraints. ACC 2023: 1428-1433 - [c73]Frédéric Mazenc, Michael Malisoff:
Local Observer for Parameters and for State Variables of Nonlinear Systems. ACC 2023: 3042-3047 - 2022
- [j71]Frédéric Mazenc, Michael Malisoff, Silviu-Iulian Niculescu:
Sampled-data estimator for nonlinear systems with uncertainties and arbitrarily fast rate of convergence. Autom. 142: 110361 (2022) - [j70]Frédéric Mazenc, Michael Malisoff:
New Finite-Time and Fast Converging Observers With a Single Delay. IEEE Control. Syst. Lett. 6: 1561-1566 (2022) - [j69]Frédéric Mazenc, Michael Malisoff:
New Versions of Halanay's Inequality With Multiple Gain Terms. IEEE Control. Syst. Lett. 6: 1790-1795 (2022) - [j68]Frédéric Mazenc, Michael Malisoff, Corina Barbalata, Zhong-Ping Jiang:
Event-Triggered Control for Discrete-Time Systems Using a Positive Systems Approach. IEEE Control. Syst. Lett. 6: 1843-1848 (2022) - [j67]Frédéric Mazenc, Michael Malisoff, Corina Barbalata:
Event-Triggered Prediction-Based Delay Compensation Approach. IEEE Control. Syst. Lett. 6: 2515-2520 (2022) - [j66]Frédéric Mazenc, Michael Malisoff:
Almost Finite-Time Observers for a Family of Nonlinear Continuous-Time Systems. IEEE Control. Syst. Lett. 6: 2593-2598 (2022) - [j65]Frédéric Mazenc, Michael Malisoff:
New Bounds for State Transition Matrices. IEEE Control. Syst. Lett. 6: 2677-2682 (2022) - [j64]Frédéric Mazenc, Michael Malisoff, Corina Barbalata, Zhong-Ping Jiang:
Subpredictor approach for event-triggered control of discrete-time systems with input delays. Eur. J. Control 68: 100664 (2022) - [j63]Frédéric Mazenc, Michael Malisoff:
ISS inequalities for vector versions of Halanay's inequality and of the trajectory-based approach. Eur. J. Control 68: 100665 (2022) - [j62]Wenyu Zuo, Animesh Chakravarthy, Michael Malisoff, Zheng Chen:
Event-Triggered Control of Robotic Fish With Reduced Communication Rate. IEEE Robotics Autom. Lett. 7(4): 9405-9412 (2022) - [j61]Frédéric Mazenc, Michael Malisoff, Corina Barbalata:
Event-triggered control for continuous-time linear systems with a delay in the input. Syst. Control. Lett. 159: 105075 (2022) - [j60]Frédéric Mazenc, Michael Malisoff, Corina Barbalata, Zhong-Ping Jiang:
Event-triggered control for linear time-varying systems using a positive systems approach. Syst. Control. Lett. 161: 105131 (2022) - [j59]Frédéric Mazenc, Michael Malisoff:
Feedback stabilization and robustness analysis using bounds on fundamental matrices. Syst. Control. Lett. 164: 105212 (2022) - [j58]Frédéric Mazenc, Michael Malisoff, Miroslav Krstic:
Vector Extensions of Halanay's Inequality. IEEE Trans. Autom. Control. 67(3): 1453-1459 (2022) - [i3]Rick Schieni, Chengwei Zhao, Michael Malisoff, Laurent Burlion:
Reference Governor Design in the Presence of Uncertain Polynomial Constraints. CoRR abs/2211.06310 (2022) - 2021
- [j57]Frédéric Mazenc, Michael Malisoff, Miroslav Krstic:
Stability and observer designs using new variants of Halanay's inequality. Autom. 123: 109299 (2021) - [j56]Michael Malisoff, Miroslav Krstic:
Multivariable extremum seeking with distinct delays using a one-stage sequential predictor. Autom. 129: 109462 (2021) - [j55]Frédéric Mazenc, Michael Malisoff, Miroslav Krstic:
Stability Analysis for Time-Varying Systems With Asynchronous Sampling Using Contractivity Approach. IEEE Control. Syst. Lett. 5(1): 49-54 (2021) - [j54]Frédéric Mazenc, Michael Malisoff, Miroslav Krstic:
Stability Analysis Using Generalized Sup-Delay Inequalities. IEEE Control. Syst. Lett. 5(4): 1411-1416 (2021) - [j53]Frédéric Mazenc, Michael Malisoff, Corina Barbalata, Zhong-Ping Jiang:
Event-triggered control using a positive systems approach. Eur. J. Control 62: 63-68 (2021) - [j52]Frédéric Mazenc, Michael Malisoff, Zhong-Ping Jiang:
Reduced-order fast converging observers for systems with discrete measurements and measurement error. Syst. Control. Lett. 150: 104892 (2021) - [j51]Indra Narayana Sandilya Bhogaraju, Mehdi Farasat, Michael Malisoff, Miroslav Krstic:
Sequential predictors for delay-compensating feedback stabilization of bilinear systems with uncertainties. Syst. Control. Lett. 152: 104933 (2021) - [c72]Frédéric Mazenc, Michael Malisoff, Miroslav Krstic:
Stability Analysis using Generalized Sup-Delay Inequalities. ACC 2021: 3538-3543 - [c71]Frédéric Mazenc, Michael Malisoff, Corina Barbalata, Zhong-Ping Jiang:
Event-Triggered Control for Systems with State Delays Using a Positive Systems Approach. CDC 2021: 552-557 - [c70]Frédéric Mazenc, Michael Malisoff:
Feedback Stabilization with Discrete Measurements using Bounds on Fundamental Matrices. CDC 2021: 1814-1819 - [c69]Indra Narayana Sandilya Bhogaraju, Mehdi Farasat, Michael Malisoff:
Sequential Predictors for Stabilization of Bilinear Systems under Measurement Uncertainty. CDC 2021: 4768-4773 - [c68]Frédéric Mazenc, Michael Malisoff:
New Fixed Time and Fast Converging Reduced Order Observers. CDC 2021: 5453-5458 - 2020
- [j50]Frédéric Mazenc, Saeed Ahmed, Michael Malisoff:
Reduced order finite time observers and output feedback for time-varying nonlinear systems. Autom. 119: 109083 (2020) - [j49]Frédéric Mazenc, Michael Malisoff, Indra Narayana Sandilya Bhogaraju:
Sequential predictors for delay compensation for discrete time systems with time-varying delays. Autom. 122: 109188 (2020) - [j48]Ningshi Yao, Michael Malisoff, Fumin Zhang:
Contention-resolving model predictive control for coupled control systems with a shared resource. Autom. 122: 109219 (2020) - [j47]Laurent Burlion, Michael Malisoff, Frédéric Mazenc:
Stabilization for a chain of saturating integrators arising in the visual landing of aircraft with sampling. Syst. Control. Lett. 135: 104574 (2020) - [j46]Frédéric Mazenc, Michael Malisoff:
Continuous Discrete Sequential Observers for Time-Varying Systems Under Sampling and Input Delays. IEEE Trans. Autom. Control. 65(4): 1704-1709 (2020) - [c67]Frédéric Mazenc, Michael Malisoff, Silviu-Iulian Niculescu:
Sampled-Data Estimator for Nonlinear Systems with Arbitrarily Fast Rate of Convergence. ACC 2020: 1685-1689 - [c66]Frédéric Mazenc, Michael Malisoff:
Sequential Predictors for Delay Compensation for Perturbed Discrete Time Systems. ACC 2020: 1696-1700 - [c65]Michael Malisoff, Miroslav Krstic:
Delayed Multivariable Extremum Seeking with Sequential Predictors. ACC 2020: 2649-2653
2010 – 2019
- 2019
- [j45]Frédéric Mazenc, Laurent Burlion, Michael Malisoff:
Stabilization and Robustness Analysis for a Chain of Saturating Integrators With Imprecise Measurements. IEEE Control. Syst. Lett. 3(2): 428-433 (2019) - [j44]Frédéric Mazenc, Laurent Burlion, Michael Malisoff:
Backstepping design for output feedback stabilization for a class of uncertain systems. Syst. Control. Lett. 123: 134-143 (2019) - [j43]Saeed Ahmed, Michael Malisoff, Frédéric Mazenc:
Finite time estimation for time-varying systems with delay in the measurements. Syst. Control. Lett. 133 (2019) - [j42]Jerome Weston, Michael Malisoff:
Sequential Predictors Under Time-Varying Feedback and Measurement Delays and Sampling. IEEE Trans. Autom. Control. 64(7): 2991-2996 (2019) - [c64]Michael Malisoff, Frédéric Mazenc, Saeed Ahmed:
Output Feedback Stabilization by Reduced Order Finite Time Observers using a Trajectory Based Approach. ACC 2019: 1134-1138 - [c63]Frédéric Mazenc, Michael Malisoff:
On Average Values of Time-Varying Delays and a New Representation of Systems with Time-Varying Delays. ACC 2019: 3714-3718 - [c62]Ningshi Yao, Michael Malisoff, Fumin Zhang:
Contention-Resolving Model Predictive Control for Coordinating Automated Vehicles at a Traffic Intersection. CDC 2019: 2233-2238 - [c61]Laurent Burlion, Michael Malisoff, Frédéric Mazenc:
Stabilization and Robustness Analysis for a Chain of Saturating Integrators Arising in the Visual Landing of Aircraft. CDC 2019: 7013-7018 - 2018
- [j41]Frédéric Mazenc, Michael Malisoff, Laurent Burlion, Jerome Weston:
Bounded backstepping control and robustness analysis for time-varying systems under converging-input-converging-state conditions. Eur. J. Control 42: 15-24 (2018) - [j40]Frédéric Mazenc, Michael Malisoff, Hitay Özbay:
Stability and Robustness Analysis for Switched Systems with Time-Varying Delays. SIAM J. Control. Optim. 56(1): 158-182 (2018) - [c60]Frédéric Mazenc, Michael Malisoff:
Continuous-Discrete Sequential Observers under Sampling and Input Delays. ACC 2018: 5156-5160 - [c59]Michael Malisoff, Selahattin Burak Sarsilmaz, Tansel Yucelen, Jonathan Muse:
Tracking, Parameter Identification, and Convergence Rates for Model Reference Adaptive Control. ACC 2018: 6810-6814 - [c58]Frédéric Mazenc, Saeed Ahmed, Michael Malisoff:
Reduced Order Finite Time Observers for Time-Varying Nonlinear Systems. CDC 2018: 2182-2186 - [c57]Michael Malisoff, Frédéric Mazenc:
Sequential Predictors for Linear Time-Varying Systems with Delays in the Vector Field and in the Input. CDC 2018: 6246-6249 - 2017
- [j39]Michael Malisoff, Robert Sizemore, Fumin Zhang:
Adaptive planar curve tracking control and robustness analysis under state constraints and unknown curvature. Autom. 75: 133-143 (2017) - [j38]Frédéric Mazenc, Michael Malisoff:
Extensions of Razumikhin's theorem and Lyapunov-Krasovskii functional constructions for time-varying systems with delay. Autom. 78: 1-13 (2017) - [j37]Frédéric Mazenc, Jérôme Harmand, Michael Malisoff:
Stabilization in a chemostat with sampled and delayed measurements and uncertain growth functions. Autom. 78: 241-249 (2017) - [j36]Frédéric Mazenc, Michael Malisoff:
Stabilization and robustness analysis for time-varying systems with time-varying delays using a sequential subpredictors approach. Autom. 82: 118-127 (2017) - [j35]Frédéric Mazenc, Michael Malisoff, Silviu-Iulian Niculescu:
Stability and Control Design for Time-Varying Systems with Time-Varying Delays using a Trajectory-Based Approach. SIAM J. Control. Optim. 55(1): 533-556 (2017) - [j34]Frédéric Mazenc, Michael Malisoff:
Stabilization of Nonlinear Time-Varying Systems Through a New Prediction Based Approach. IEEE Trans. Autom. Control. 62(6): 2908-2915 (2017) - [c56]Frédéric Mazenc, Michael Malisoff, Gonzalo Robledo:
Stability and robustness analysis for a multi-species chemostat model with uncertainties. ACC 2017: 2130-2134 - [c55]Ningshi Yao, Michael Malisoff, Fumin Zhang:
Contention resolving optimal priority assignment for event-triggered model predictive controllers. ACC 2017: 2357-2362 - [c54]Frédéric Mazenc, Michael Malisoff, Hitay Özbay:
Stability analysis of switched systems with time-varying discontinuous delays. ACC 2017: 5177-5181 - [c53]Frédéric Mazenc, Michael Malisoff, Laurent Burlion, Victor Gibert:
Bounded backstepping through a dynamic extension with delay. CDC 2017: 607-611 - [c52]Jerome Weston, Michael Malisoff, Frédéric Mazenc:
Sequential predictors under time-varying delays: Effects of delayed state observations in dynamic controller. CDC 2017: 4351-4356 - 2016
- [j33]Frédéric Mazenc, Michael Malisoff:
New control design for bounded backstepping under input delays. Autom. 66: 48-55 (2016) - [j32]Michael Malisoff, Miroslav Krstic:
Stabilization and robustness analysis for a chain of exponential integrators using strict Lyapunov functions. Autom. 68: 184-193 (2016) - [j31]Frédéric Mazenc, Michael Malisoff:
Reduction model approach for linear time-varying systems with input delays based on extensions of Floquet theory. Syst. Control. Lett. 94: 70-76 (2016) - [j30]Frédéric Mazenc, Michael Malisoff:
Stability Analysis for Time-Varying Systems With Delay Using Linear Lyapunov Functionals and a Positive Systems Approach. IEEE Trans. Autom. Control. 61(3): 771-776 (2016) - [c51]Frédéric Mazenc, Michael Malisoff:
Extension of Razumikhin's theorem for time-varying systems with delay. ACC 2016: 84-88 - [c50]Michael Malisoff, Fumin Zhang:
Adaptive planar curve tracking control with unknown curvature. ACC 2016: 1608-1612 - [c49]Frédéric Mazenc, Jérôme Harmand, Michael Malisoff:
Stabilization in a chemostat with sampled and delayed measurements. ACC 2016: 1857-1862 - [c48]Frédéric Mazenc, Michael Malisoff, Jerome Weston:
New bounded backstepping control designs for time-varying systems under converging-input-converging-state conditions. CDC 2016: 3167-3171 - [c47]Frédéric Mazenc, Michael Malisoff:
New prediction approach for stabilizing time-varying systems under time-varying input delay. CDC 2016: 3178-3182 - [c46]Michael Malisoff, Robert Sizemore, Fumin Zhang:
Robustness of adaptive control for three-dimensional curve tracking under state constraints: Effects of scaling control terms. CDC 2016: 3825-3830 - 2015
- [j29]Frédéric Mazenc, Vincent Andrieu, Michael Malisoff:
Design of continuous-discrete observers for time-varying nonlinear systems. Autom. 57: 135-144 (2015) - [j28]Michael Malisoff, Fumin Zhang:
Robustness of Adaptive Control under Time Delays for Three-Dimensional Curve Tracking. SIAM J. Control. Optim. 53(4): 2203-2236 (2015) - [j27]Frédéric Mazenc, Michael Malisoff:
Trajectory Based Approach for the Stability Analysis of Nonlinear Systems with Time Delays. IEEE Trans. Autom. Control. 60(6): 1716-1721 (2015) - [c45]Iasson Karafyllis, Michael Malisoff, Miroslav Krstic:
Sampled-data feedback stabilization of age-structured chemostat models. ACC 2015: 4549-4554 - [c44]Frédéric Mazenc, Michael Malisoff, Silviu-Iulian Niculescu:
Stability analysis for systems with time-varying delay: Trajectory based approach. CDC 2015: 1811-1816 - [c43]Michael Malisoff, Miroslav Krstic:
Stabilization of a chain of exponential integrators using a strict Lyapunov function. CDC 2015: 1841-1845 - [c42]Frédéric Mazenc, Michael Malisoff:
Reduction model approach for systems with a time-varying delay. CDC 2015: 7723-7727 - [c41]Frédéric Mazenc, Michael Malisoff:
Bounded backstepping approach under input delays. ECC 2015: 2056-2061 - [c40]Frédéric Mazenc, Vincent Andrieu, Michael Malisoff:
Continuous-Discrete Observers for Time-Varying Nonlinear Systems: A Tutorial on Recent Results. SIAM Conf. on Control and its Applications 2015: 181-188 - [i2]Iasson Karafyllis, Michael Malisoff, Miroslav Krstic:
Ergodic Theorem for Stabilization of a Hyperbolic PDE Inspired by Age-Structured Chemostat. CoRR abs/1501.04321 (2015) - 2014
- [j26]Frédéric Mazenc, Michael Malisoff, Silviu-Iulian Niculescu:
Reduction Model Approach for Linear Time-Varying Systems With Delays. IEEE Trans. Autom. Control. 59(8): 2068-2082 (2014) - [j25]Frédéric Mazenc, Michael Malisoff:
Local Stabilization of Nonlinear Systems Through the Reduction Model Approach. IEEE Trans. Autom. Control. 59(11): 3033-3039 (2014) - [c39]Teymur Sadikhov, Wassim M. Haddad, Michael Malisoff:
A universal feedback controller for discontinuous dynamical systems using nonsmooth control Lyapunov functions. ACC 2014: 1174-1179 - [c38]Frédéric Mazenc, Michael Malisoff:
Reduction model method for local stabilization of time-varying nonlinear systems with input delays, structured nonlinearities, and uncertainties. ACC 2014: 4169-4174 - [c37]Iasson Karafyllis, Michael Malisoff, Marcio S. de Queiroz, Miroslav Krstic, Ruzhou Yang:
A new tracking controller for neuromuscular electrical stimulation under input delays: Case study in prediction. ACC 2014: 4186-4191 - [c36]Frédéric Mazenc, Michael Malisoff:
Stabilization of time-varying nonlinear systems with time delays using a trajectory based approach. ACC 2014: 4854-4858 - [c35]Frédéric Mazenc, Michael Malisoff:
New technique for stability analysis for time-varying systems with delay. CDC 2014: 1215-1220 - 2013
- [j24]Frédéric Mazenc, Michael Malisoff:
Asymptotic stabilization for feedforward systems with delayed feedbacks. Autom. 49(3): 780-787 (2013) - [j23]Michael Malisoff, Fumin Zhang:
Adaptive control for planar curve tracking under controller uncertainty. Autom. 49(5): 1411-1418 (2013) - [j22]Frédéric Mazenc, Michael Malisoff, Thach Ngoc Dinh:
Robustness of nonlinear systems with respect to delay and sampling of the controls. Autom. 49(6): 1925-1931 (2013) - [j21]Aleksandra Gruszka, Michael Malisoff, Frédéric Mazenc:
Bounded Tracking Controllers and Robustness Analysis for UAVs. IEEE Trans. Autom. Control. 58(1): 180-187 (2013) - [c34]Frédéric Mazenc, Michael Malisoff, Thach Ngoc Dinh:
Uniform global asymptotic stability for nonlinear systems under input delays and sampling of the controls. ACC 2013: 4850-4854 - [c33]Michael Malisoff, Fumin Zhang:
Robustness of a class of three-dimensional curve tracking control laws under time delays and polygonal state constraints. ACC 2013: 5690-5695 - [c32]Frédéric Mazenc, Michael Malisoff, Silviu-Iulian Niculescu:
Stabilization of linear time varying systems with input delays: Application to rapidly time varying systems. CDC 2013: 1584-1589 - [c31]Michael Malisoff, Fumin Zhang:
An adaptive control design for 3D curve tracking based on robust forward invariance. CDC 2013: 4473-4478 - [i1]Iasson Karafyllis, Michael Malisoff, Marcio S. de Queiroz, Miroslav Krstic:
Predictor-Based Tracking For Neuromuscular Electrical Stimulation. CoRR abs/1310.1857 (2013) - 2012
- [j20]Michael Malisoff, Frédéric Mazenc, Fumin Zhang:
Stability and Robustness Analysis for Curve Tracking Control using Input-to-State Stability. IEEE Trans. Autom. Control. 57(5): 1320-1326 (2012) - [c30]Michael Malisoff, Fumin Zhang:
Adaptive controllers and robustness analysis for curve tracking with unknown control gains. ACC 2012: 344-349 - [c29]Aleksandra Gruszka, Michael Malisoff, Frédéric Mazenc:
Tracking and robustness analysis for UAVs with bounded feedbacks. ACC 2012: 932-937 - [c28]Frédéric Mazenc, Michael Malisoff:
Stabilization for feedforward systems with delay in the input. CDC 2012: 3892-3897 - 2011
- [j19]Frédéric Mazenc, Michael Malisoff, Marcio S. de Queiroz:
Tracking control and robustness analysis for a nonlinear model of human heart rate during exercise. Autom. 47(5): 968-974 (2011) - [c27]Aleksandra Gruszka, Michael Malisoff, Frédéric Mazenc:
On tracking for the PVTOL model with bounded feedbacks. ACC 2011: 1428-1433 - [c26]Michael Malisoff, Frédéric Mazenc, Fumin Zhang:
Input-to-state stability for curve tracking control: A constructive approach. ACC 2011: 1984-1989 - [c25]Frédéric Mazenc, Michael Malisoff:
On stability and stabilization for chemostats with many limiting nutrients. CDC/ECC 2011: 3700-3705 - 2010
- [j18]Frédéric Mazenc, Michael Malisoff:
Stabilization of a chemostat model with Haldane growth functions and a delay in the measurements. Autom. 46(9): 1428-1436 (2010) - [j17]Frédéric Mazenc, Michael Malisoff:
Remarks on output feedback stabilization of two-species chemostat models. Autom. 46(10): 1739-1742 (2010) - [j16]Frédéric Mazenc, Michael Malisoff:
Strict Lyapunov Function Constructions Under LaSalle Conditions With an Application to Lotka-Volterra Systems. IEEE Trans. Autom. Control. 55(4): 841-854 (2010) - [c24]Frédéric Mazenc, Michael Malisoff, Marcio S. de Queiroz:
On uniform global asymptotic stability of adaptive systems with unknown control gains. ACC 2010: 166-171 - [c23]Frédéric Mazenc, Michael Malisoff:
Stabilization of two-species chemostats with delayed measurements and haldane growth functions. ACC 2010: 6740-6744 - [c22]Frédéric Mazenc, Michael Malisoff:
Further results on robust output feedback control for the chemostat dynamics. CDC 2010: 822-826 - [c21]Frédéric Mazenc, Michael Malisoff, Marcio S. de Queiroz:
Model-based nonlinear control of the human heart rate during treadmill exercising. CDC 2010: 1674-1678
2000 – 2009
- 2009
- [j15]Frédéric Mazenc, Michael Malisoff, Olivier Bernard:
A Simplified Design for Strict Lyapunov Functions Under Matrosov Conditions. IEEE Trans. Autom. Control. 54(1): 177-183 (2009) - [j14]Frédéric Mazenc, Michael Malisoff, Jérôme Harmand:
Stabilization in a Two-Species Chemostat With Monod Growth Functions. IEEE Trans. Autom. Control. 54(4): 855-861 (2009) - [j13]Frédéric Mazenc, Michael Malisoff, Olivier Bernard:
Erratum to "A Simplified Design for Strict Lyapunov Functions Under Matrosov Conditions" [Jan 09 177-183]. IEEE Trans. Autom. Control. 54(4): 929 (2009) - [j12]Frédéric Mazenc, Marcio S. de Queiroz, Michael Malisoff:
Uniform Global Asymptotic Stability of a Class of Adaptively Controlled Nonlinear Systems. IEEE Trans. Autom. Control. 54(5): 1152-1158 (2009) - [c20]Frédéric Mazenc, Michael Malisoff:
Lyapunov functions under LaSalle conditions with an application to Lotka-Volterra systems. ACC 2009: 96-101 - [c19]Domitilla Del Vecchio, Michael Malisoff, Rajeev Verma:
A separation principle for a class of hybrid automata on a partial order. ACC 2009: 3638-3643 - 2008
- [j11]Frédéric Mazenc, Michael Malisoff, Zongli Lin:
Further results on input-to-state stability for nonlinear systems with delayed feedbacks. Autom. 44(9): 2415-2421 (2008) - [j10]Frédéric Mazenc, Michael Malisoff, Jérôme Harmand:
Further Results on Stabilization of Periodic Trajectories for a Chemostat With Two Species. IEEE Trans. Autom. Control. 53: 66-74 (2008) - [c18]Frédéric Mazenc, Michael Malisoff, Olivier Bernard:
Lyapunov functions and robustness analysis under Matrosov conditions with an application to biological systems. ACC 2008: 2933-2938 - [c17]Michael Malisoff, Frédéric Mazenc, Marcio de Queiroz:
Remarks on tracking and robustness analysis for MEM relays. ACC 2008: 2945-2950 - 2007
- [j9]Frédéric Mazenc, Michael Malisoff:
Further results on Lyapunov functions for slowly time-varying systems. Math. Control. Signals Syst. 19(1): 1-21 (2007) - [c16]Frédéric Mazenc, Michael Malisoff, Zongli Lin:
On Input-to-State Stability for Nonlinear Systems with Delayed Feedbacks. ACC 2007: 4804-4809 - [c15]Frédéric Mazenc, Michael Malisoff, Jérôme Harmand:
Stabilization of a Periodic Trajectory for a Chemostat with Two Species. ACC 2007: 6128-6132 - [c14]Frédéric Mazenc, Michael Malisoff, Jérôme Harmand:
Stabilization and robustness analysis for a chemostat model with two species and monod growth rates via a Lyapunov approach. CDC 2007: 3933-3938 - 2006
- [j8]Frédéric Mazenc, Michael Malisoff, Marcio S. de Queiroz:
Further results on strict Lyapunov functions for rapidly time-varying nonlinear systems. Autom. 42(10): 1663-1671 (2006) - [j7]Michael Malisoff, Patrick De Leenheer:
A small-gain theorem for motone systems with multivalued input-state characteristics. IEEE Trans. Autom. Control. 51(2): 287-292 (2006) - [j6]Frédéric Mazenc, Michael Malisoff:
Further constructions of control-Lyapunov functions and stabilizing feedbacks for systems satisfying the Jurdjevic-Quinn conditions. IEEE Trans. Autom. Control. 51(2): 360-365 (2006) - [j5]Frédéric Mazenc, Marcio S. de Queiroz, Michael Malisoff, Feng Gao:
Further results on active magnetic bearing control with input saturation. IEEE Trans. Control. Syst. Technol. 14(5): 914-919 (2006) - [c13]Frédéric Mazenc, Michael Malisoff, Marcio S. de Queiroz:
On strict Lyapunov functions for rapidly time-varying nonlinear systems. ACC 2006: 1-6 - [c12]Frédéric Mazenc, Patrick De Leenheer, Michael Malisoff:
Stabilizing a Periodic Solution in the Chemostat: A Case Study in Tracking. CDC 2006: 1794-1799 - [c11]Michael Malisoff, Frédéric Mazenc:
On Control-Lyapunov Functions for Hybrid Time-Varying Systems. CDC 2006: 3265-3270 - [c10]Frédéric Mazenc, Michael Malisoff:
Lyapunov Function Constructions for Slowly Time-Varying Systems. CDC 2006: 5108-5113 - 2005
- [j4]Michael Malisoff, Frédéric Mazenc:
Further remarks on strict input-to-state stable Lyapunov functions for time-varying systems. Autom. 41(11): 1973-1978 (2005) - [c9]Michael Malisoff, Frédéric Mazenc:
Further constructions of strict Lyapunov functions for time-varying systems. ACC 2005: 1889-1894 - [c8]Frédéric Mazenc, Marcio S. de Queiroz, Michael Malisoff:
On Active Magnetic Bearing Control with Input Saturation. CDC/ECC 2005: 1090-1095 - [c7]Frédéric Mazenc, Michael Malisoff:
Control-Lyapunov Functions for Systems Satisfying the Conditions of the Jurdjevic-Quinn Theorem. CDC/ECC 2005: 4724-4729 - [c6]Patrick De Leenheer, Michael Malisoff:
Remarks on Monotone Control Systems with Multi-Valued Input-State Characteristics. CDC/ECC 2005: 8012-8017 - 2004
- [j3]Michael Malisoff, Ludovic Rifford, Eduardo D. Sontag:
Global Asymptotic Controllability Implies Input-to-State Stabilization. SIAM J. Control. Optim. 42(6): 2221-2238 (2004) - 2003
- [j2]Michael Malisoff:
Further results on the Bellman equation for optimal control problems with exit times and nonnegative Lagrangians. Syst. Control. Lett. 50(1): 65-79 (2003) - [c5]Michael Malisoff, Ludovic Rifford, Eduardo D. Sontag:
Remarks on input to state stabilization. CDC 2003: 1053-1058 - 2002
- [j1]Michael Malisoff:
Viscosity Solutions of the Bellman Equation for Exit Time Optimal Control Problems with Vanishing Lagrangians. SIAM J. Control. Optim. 40(5): 1358-1383 (2002) - [c4]Michael Malisoff:
Viscosity solutions of the Bellman equation for infinite horizon optimal control problems with negative instantaneous costs. CDC 2002: 722-727 - [c3]Michael Malisoff:
Viscosity solutions of the Bellman equation for perturbed optimal control problems with exit times. CDC 2002: 2348-2353 - 2000
- [c2]Michael A. Malisoff:
An algorithm for feedback stabilization with respect to saturating controls using universal formulas for control-Lyapunov functions. ACC 2000: 1771-1773 - [c1]Héctor J. Sussmann, Michael A. Malisoff:
Further results on the Bellman equation for exit time optimal control problems with nonnegative Lagrangians: the case of Fuller's problem. CDC 2000: 2308-2310
Coauthor Index
[j75] [j74] [j73] [c73] [j71] [j70] [j69] [j68] [j67] [j66] [j65] [j64] [j63] [j61] [j60] [j59] [j58] [j57] [j55] [j54] [j53] [j52] [c72] [c71] [c70] [c68] [j50] [j49] [j47] [j46] [c67] [c66] [j45] [j44] [j43] [c64] [c63] [c61] [j41] [j40] [c60] [c58] [c57] [j38] [j37] [j36] [j35] [j34] [c56] [c54] [c53] [c52] [j33] [j31] [j30] [c51] [c49] [c48] [c47] [j29] [j27] [c44] [c42] [c41] [c40] [j26] [j25] [c38] [c36] [c35] [j24] [j22] [j21] [c34] [c32] [j20] [c29] [c28] [j19] [c27] [c26] [c25] [j18] [j17] [j16] [c24] [c23] [c22] [c21] [j15] [j14] [j13] [j12] [c20] [j11] [j10] [c18] [c17] [j9] [c16] [c15] [c14] [j8] [j6] [j5] [c13] [c12] [c11] [c10] [j4] [c9] [c8] [c7]
Marcio S. de Queiroz
aka: Marcio de Queiroz
aka: Marcio de Queiroz
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