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Raphaël M. Jungers
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- affiliation: UC Louvain, Institute of Information and Communication Technologies, Electronics and Applied Mathematics (ICTEAM)
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2020 – today
- 2024
- [j75]Matteo Della Rossa, Thiago Alves Lima, Marc Jungers, Raphaël M. Jungers:
Graph-based conditions for feedback stabilization of switched and LPV systems. Autom. 160: 111427 (2024) - [j74]Zheming Wang, Raphaël M. Jungers, Mihály Petreczky, Bo Chen, Li Yu:
Learning stability of partially observed switched linear systems. Autom. 164: 111643 (2024) - [j73]Zheming Wang, Raphaël M. Jungers:
On Objective Function Value Performance of the Scenario Approach Under Regularity Conditions. IEEE Trans. Autom. Control. 69(7): 4215-4229 (2024) - [j72]Eleftherios E. Vlahakis, Raphaël M. Jungers, Nikolaos Athanasopoulos, Seán F. McLoone:
AIMD-Inspired Switching Control of Computing Networks. IEEE Trans. Control. Netw. Syst. 11(2): 683-695 (2024) - [c90]Virginie Debauche, Alec Edwards, Raphaël M. Jungers, Alessandro Abate:
Stability Analysis of Switched Linear Systems with Neural Lyapunov Functions. AAAI 2024: 21010-21018 - [c89]Julien Calbert, Sébastien M. Mattenet, Antoine Girard, Raphaël M. Jungers:
Memoryless concretization relation. HSCC 2024: 14:1-14:9 - [i81]Julien Calbert, Sébastien M. Mattenet, Antoine Girard, Raphaël M. Jungers:
Memoryless concretization relation. CoRR abs/2403.09556 (2024) - [i80]Julien Calbert, Adrien Banse, Benoît Legat, Raphaël M. Jungers:
Dionysos.jl: a Modular Platform for Smart Symbolic Control. CoRR abs/2404.14114 (2024) - [i79]Wei Ren, Raphaël M. Jungers, Dimos V. Dimarogonas:
Zonotope-based Symbolic Controller Synthesis for Linear Temporal Logic Specifications. CoRR abs/2405.00924 (2024) - [i78]Adrien Banse, Licio Romao, Alessandro Abate, Raphaël M. Jungers:
Data-driven memory-dependent abstractions of dynamical systems via a Cantor-Kantorovich metric. CoRR abs/2405.08353 (2024) - [i77]Adrien Banse, Venkatraman Renganathan, Raphaël M. Jungers:
A Cantor-Kantorovich Metric Between Markov Decision Processes with Application to Transfer Learning. CoRR abs/2407.08324 (2024) - 2023
- [j71]Zheming Wang, Raphaël M. Jungers, Chong Jin Ong:
Computation of invariant sets via immersion for discrete-time nonlinear systems. Autom. 147: 110686 (2023) - [j70]Matteo Della Rossa, Raphaël M. Jungers:
Interpretability of Path-Complete Techniques and Memory-Based Lyapunov Functions. IEEE Control. Syst. Lett. 7: 781-786 (2023) - [j69]Matteo Della Rossa, Lucas N. Egidio, Raphaël M. Jungers:
Stability of Switched Affine Systems: Arbitrary and Dwell-Time Switching. SIAM J. Control. Optim. 61(4): 2165-2192 (2023) - [c88]Julien Calbert, Raphaël M. Jungers:
Data-driven heuristic symbolic models and application to limit-cycle detection. ACC 2023: 4351-4356 - [c87]Adrien Banse, Licio Romao, Alessandro Abate, Raphaël M. Jungers:
Data-driven Abstractions via Adaptive Refinements and a Kantorovich Metric. CDC 2023: 6038-6043 - [c86]Zheming Wang, Bo Chen, Raphaël M. Jungers, Li Yu:
Data-Driven Reachability Analysis of Lipschitz Nonlinear Systems via Support Vector Data Description. CDC 2023: 7043-7048 - [c85]Brieuc Pinon, Raphaël M. Jungers, Jean-Charles Delvenne:
A model-based approach to meta-Reinforcement Learning: Transformers and tree search. ESANN 2023 - [c84]Virginie Debauche, Matteo Della Rossa, Raphaël M. Jungers:
Characterization of the ordering of path-complete stability certificates with addition-closed templates. HSCC 2023: 8:1-8:10 - [c83]Lucas Neves Egidio, Satya Prakash Nayak, Matteo Della Rossa, Anne-Kathrin Schmuck, Raphaël M. Jungers:
Poster Abstract: Towards Seamless Reactivity of Hybrid Control. HSCC 2023: 27:1-27:2 - [c82]Adrien Banse, Licio Romao, Alessandro Abate, Raphaël M. Jungers:
Data-driven memory-dependent abstractions of dynamical systems. L4DC 2023: 891-902 - [i76]Zheming Wang, Raphaël M. Jungers, Mihály Petreczky, Bo Chen, Li Yu:
Learning stability of partially observed switched linear systems. CoRR abs/2301.08046 (2023) - [i75]Adrien Banse, Zheming Wang, Raphaël M. Jungers:
Learning stability guarantees for constrained switching linear systems from noisy observations. CoRR abs/2302.05249 (2023) - [i74]Adrien Banse, Licio Romao, Alessandro Abate, Raphaël M. Jungers:
Data-driven abstractions via adaptive refinements and a Kantorovich metric [extended version]. CoRR abs/2303.17618 (2023) - [i73]Satya Prakash Nayak, Lucas Neves Egidio, Matteo Della Rossa, Anne-Kathrin Schmuck, Raphaël M. Jungers:
Context-triggered Abstraction-based Control Design. CoRR abs/2305.03399 (2023) - [i72]Matteo Della Rossa, Thiago Alves Lima, Marc Jungers, Raphaël M. Jungers:
Graph-Based Conditions for Feedback Stabilization of Switched and LPV Systems. CoRR abs/2306.11548 (2023) - [i71]Brieuc Pinon, Raphaël M. Jungers, Jean-Charles Delvenne:
Efficiency Separation between RL Methods: Model-Free, Model-Based and Goal-Conditioned. CoRR abs/2309.16291 (2023) - 2022
- [j68]Lucas N. Egidio, Grace S. Deaecto, Raphaël M. Jungers:
Stabilization of rank-deficient continuous-time switched affine systems. Autom. 143: 110426 (2022) - [j67]Sébastien M. Mattenet, Vittorio De Iuliis, Marco A. Gómez, Wim Michiels, Raphaël M. Jungers:
An improved finiteness test and a systematic procedure to compute the strong ℋ2 norm of differential algebraic systems with multiple delays. Autom. 144: 110495 (2022) - [j66]Wei Ren, Raphaël M. Jungers, Dimos V. Dimarogonas:
Razumikhin and Krasovskii approaches for safe stabilization. Autom. 146: 110563 (2022) - [j65]Guillaume O. Berger, Raphaël M. Jungers:
Worst-case topological entropy and minimal data rate for state estimation of switched linear systems. Commun. ACM 65(2): 111-118 (2022) - [j64]Guillaume O. Berger, Pierre-Antoine Absil, Lieven De Lathauwer, Raphaël M. Jungers, Marc Van Barel:
Equivalent polyadic decompositions of matrix multiplication tensors. J. Comput. Appl. Math. 406: 113941 (2022) - [j63]Marco A. Gómez, Raphaël M. Jungers, Wim Michiels:
On the Strong $\mathcal {H}_2$ Norm of Differential Algebraic Systems With Multiple Delays: Finiteness Criteria, Regularization, and Computation. IEEE Trans. Autom. Control. 67(1): 121-133 (2022) - [j62]Antoine Aspeel, Amaury Gouverneur, Raphaël M. Jungers, Benoît Macq:
Optimal Intermittent Particle Filter. IEEE Trans. Signal Process. 70: 2814-2825 (2022) - [c81]Wei Ren, Raphaël M. Jungers:
Reachability-based Control Synthesis under Signal Temporal Logic Specifications. ACC 2022: 2078-2083 - [c80]Wei Ren, Eleftherios E. Vlahakis, Nikolaos Athanasopoulos, Raphaël M. Jungers:
Optimal Resource Scheduling and Allocation in Distributed Computing Systems. ACC 2022: 2327-2332 - [c79]Lucas N. Egidio, Thiago Alves Lima, Raphaël M. Jungers:
Optimal Abstraction-based Control with Local Affine Controllers. ACC 2022: 3354 - [c78]Guillaume O. Berger, Raphaël M. Jungers, Zheming Wang:
Data-driven invariant subspace identification for black-box switched linear systems. CDC 2022: 32-37 - [c77]Matteo Della Rossa, Raphaël M. Jungers:
Almost sure Stability of Stochastic Switched Systems: Graph lifts-based Approach. CDC 2022: 1021-1026 - [c76]Zheming Wang, Raphaël M. Jungers:
Probabilistic guarantees on the objective value for the scenario approach via sensitivity analysis. CDC 2022: 5668-5673 - [c75]Thiago Alves Lima, Matteo Della Rossa, Frédéric Gouaisbaut, Raphaël M. Jungers, Sophie Tarbouriech:
Systems with both constant and time-varying delays: a switched systems approach and application to observer-controller co-design. CDC 2022: 6889-6894 - [c74]Adrien Banse, Zheming Wang, Raphaël M. Jungers:
Black-box stability analysis of hybrid systems with sample-based multiple Lyapunov functions. CDC 2022: 7284-7289 - [c73]Lucas N. Egidio, Thiago Alves Lima, Raphaël M. Jungers:
State-feedback Abstractions for Optimal Control of Piecewise-affine Systems. CDC 2022: 7455-7460 - [c72]Virginie Debauche, Matteo Della Rossa, Raphaël M. Jungers:
Necessary and Sufficient Conditions for Template-Dependent Ordering of Path-Complete Lyapunov Methods. HSCC 2022: 14:1-14:10 - [c71]Matteo Della Rossa, Raphaël M. Jungers:
Memory-Based Lyapunov Functions and Path-complete Framework: Equivalence and Properties. ICSC 2022: 12-17 - [i70]Matteo Della Rossa, Lucas N. Egidio, Raphaël M. Jungers:
Stability of Switched Affine Systems: Arbitrary and Dwell-Time Switching. CoRR abs/2203.06968 (2022) - [i69]Wei Ren, Eleftherios E. Vlahakis, Nikolaos Athanasopoulos, Raphaël M. Jungers:
Optimal Resource Scheduling and Allocation under Allowable Over-Scheduling. CoRR abs/2204.00038 (2022) - [i68]Lucas N. Egidio, Thiago Alves Lima, Raphaël M. Jungers:
State-feedback Abstractions for Optimal Control of Piecewise-affine Systems. CoRR abs/2204.00315 (2022) - [i67]Antoine Aspeel, Amaury Gouverneur, Raphaël M. Jungers, Benoît Macq:
Optimal Intermittent Particle Filter. CoRR abs/2204.06265 (2022) - [i66]Lucas N. Egidio, Grace S. Deaecto, Raphaël M. Jungers:
Stabilization of rank-deficient continuous-time switched affine systems. CoRR abs/2204.06912 (2022) - [i65]Wei Ren, Raphaël M. Jungers, Dimos V. Dimarogonas:
Razumikhin and Krasovskii Approaches for Safe Stabilization. CoRR abs/2204.12106 (2022) - [i64]Adrien Banse, Zheming Wang, Raphaël M. Jungers:
Learning stability guarantees for data-driven constrained switching linear systems. CoRR abs/2205.00696 (2022) - [i63]Adrien Banse, Zheming Wang, Raphaël M. Jungers:
Black-box stability analysis of hybrid systems with sample-based multiple Lyapunov functions. CoRR abs/2205.00699 (2022) - [i62]Brieuc Pinon, Jean-Charles Delvenne, Raphaël M. Jungers:
A model-based approach to meta-Reinforcement Learning: Transformers and tree search. CoRR abs/2208.11535 (2022) - [i61]Thiago Alves Lima, Matteo Della Rossa, Frédéric Gouaisbaut, Raphaël M. Jungers, Sophie Tarbouriech:
Systems with both constant and time-varying delays: a switched systems approach and application to observer-controller co-design. CoRR abs/2209.04869 (2022) - [i60]Guillaume O. Berger, Raphaël M. Jungers, Zheming Wang:
Data-driven invariant subspace identification for black-box switched linear systems. CoRR abs/2209.05320 (2022) - [i59]Julien Calbert, Lucas N. Egidio, Raphaël M. Jungers:
An Efficient Method to Verify the Inclusion of Ellipsoids. CoRR abs/2211.06237 (2022) - [i58]Adrien Banse, Licio Romao, Alessandro Abate, Raphaël M. Jungers:
Data-driven memory-dependent abstractions of dynamical systems. CoRR abs/2212.01926 (2022) - 2021
- [j61]Zheming Wang, Raphaël M. Jungers, Chong Jin Ong:
Computation of the maximal invariant set of discrete-time linear systems subject to a class of non-convex constraints. Autom. 125: 109463 (2021) - [j60]Guillaume O. Berger, Raphaël M. Jungers:
p-dominant switched linear systems. Autom. 132: 109801 (2021) - [j59]Zheming Wang, Raphaël M. Jungers:
Scenario-Based Set Invariance Verification for Black-Box Nonlinear Systems. IEEE Control. Syst. Lett. 5(1): 193-198 (2021) - [j58]Guillaume O. Berger, Raphaël M. Jungers:
Quantized Stabilization of Continuous-Time Switched Linear Systems. IEEE Control. Syst. Lett. 5(1): 319-324 (2021) - [j57]Benoît Legat, Sasa V. Rakovic, Raphaël M. Jungers:
Piecewise Semi-Ellipsoidal Control Invariant Sets. IEEE Control. Syst. Lett. 5(3): 755-760 (2021) - [j56]Zheming Wang, Raphaël M. Jungers:
A Data-Driven Method for Computing Polyhedral Invariant Sets of Black-Box Switched Linear Systems. IEEE Control. Syst. Lett. 5(5): 1843-1848 (2021) - [j55]Antoine Aspeel, Axel Legay, Raphaël M. Jungers, Benoît Macq:
Optimal measurement budget allocation for Kalman prediction over a finite time horizon by genetic algorithms. EURASIP J. Adv. Signal Process. 2021(1): 39 (2021) - [j54]Costanza Catalano, Umer Azfar, Ludovic Charlier, Raphaël M. Jungers:
A Linear Bound on the k-rendezvous Time for Primitive Sets of NZ Matrices. Fundam. Informaticae 180(4): 289-314 (2021) - [j53]Gilles Millérioux, Raphaël M. Jungers:
Characterization of flat outputs of switched linear discrete-time systems: Algebraic condition and algorithm. Syst. Control. Lett. 154: 104970 (2021) - [c70]Anne Rubbens, Zheming Wang, Raphaël M. Jungers:
Data-driven stability analysis of switched linear systems with Sum of Squares guarantees. ADHS 2021: 67-72 - [c69]Benoît Legat, Raphaël M. Jungers:
Geometric control of algebraic systems. ADHS 2021: 79-84 - [c68]Virginie Debauche, Matteo Della Rossa, Raphaël M. Jungers:
Template-Dependent Lifts for Path-Complete Stability Criteria and Application to Positive Switching Systems. ADHS 2021: 151-156 - [c67]Zheming Wang, Raphaël M. Jungers:
A data-driven method for computing polyhedral invariant sets of black-box switched linear systems. ACC 2021: 3416-3421 - [c66]Wei Ren, Julien Calbert, Raphaël M. Jungers:
Zonotope-based Controller Synthesis for LTL Specifications. CDC 2021: 580-585 - [c65]Julien Calbert, Benoît Legat, Lucas N. Egidio, Raphaël M. Jungers:
Alternating Simulation on Hierarchical Abstractions. CDC 2021: 593-598 - [c64]Guillaume O. Berger, Raphaël M. Jungers:
Complexity of the LTI system trajectory boundedness problem. CDC 2021: 1832-1837 - [c63]Antoine Aspeel, Kwesi Rutledge, Raphaël M. Jungers, Benoît Macq, Necmiye Özay:
Optimal Control for Linear Networked Control Systems with Information Transmission Constraints. CDC 2021: 1960-1967 - [c62]Matteo Della Rossa, Zheming Wang, Lucas N. Egidio, Raphaël M. Jungers:
Data-driven stability analysis of switched affine systems. CDC 2021: 3204-3209 - [c61]Zheming Wang, Guillaume O. Berger, Raphaël M. Jungers:
Data-driven feedback stabilization of switched linear systems with probabilistic stability guarantees. CDC 2021: 4400-4405 - [c60]Wei Ren, Dimos V. Dimarogonas, Raphaël M. Jungers:
Event-Triggered Tracking Control of Networked and Quantized Control Systems. ECC 2021: 632-637 - [c59]Zheming Wang, Raphaël M. Jungers:
Immersion-based model predictive control of constrained nonlinear systems: Polyflow approximation. ECC 2021: 1099-1104 - [c58]Benoît Legat, Raphaël M. Jungers, Jean Bouchat:
Abstraction-based branch and bound approach to Q-learning for hybrid optimal control. L4DC 2021: 263-274 - [c57]Guillaume O. Berger, Raphaël M. Jungers, Zheming Wang:
Chance-constrained quasi-convex optimization with application to data-driven switched systems control. L4DC 2021: 571-583 - [e3]Raphaël M. Jungers, Necmiye Ozay, Alessandro Abate:
7th IFAC Conference on Analysis and Design of Hybrid Systems, ADHS 2021, Brussels, Belgium, July 7-9, 2021. IFAC-PapersOnLine 54(5), Elsevier 2021 [contents] - [e2]Sergiy Bogomolov, Raphaël M. Jungers:
HSCC '21: 24th ACM International Conference on Hybrid Systems: Computation and Control, Nashville, Tennessee, May 19-21, 2021. ACM 2021, ISBN 978-1-4503-8339-4 [contents] - [i57]Guillaume O. Berger, Raphaël M. Jungers, Zheming Wang:
Chance-constrained quasi-convex optimization with application to data-driven switched systems control. CoRR abs/2101.01415 (2021) - [i56]Brieuc Pinon, Jean-Charles Delvenne, Raphaël M. Jungers:
PAC-learning gains of Turing machines over circuits and neural networks. CoRR abs/2103.12686 (2021) - [i55]Wei Ren, Julien Calbert, Raphaël M. Jungers:
Zonotope-based Controller Synthesis for LTL Specifications. CoRR abs/2108.00704 (2021) - [i54]Guillaume O. Berger, Raphaël M. Jungers:
Complexity of the LTI system trajectory boundedness problem. CoRR abs/2108.00728 (2021) - [i53]Antoine Aspeel, Kwesi Rutledge, Raphaël M. Jungers, Benoît Macq, Necmiye Ozay:
Optimal Control for Linear Networked Control Systems with Information Transmission Constraints. CoRR abs/2109.10666 (2021) - [i52]Matteo Della Rossa, Zheming Wang, Lucas N. Egidio, Raphaël M. Jungers:
Data-driven stability analysis of switched affine systems. CoRR abs/2109.11169 (2021) - [i51]Wei Ren, Raphaël M. Jungers:
Reachability-based Control Synthesis under Signal Temporal Logic Specifications. CoRR abs/2110.08019 (2021) - [i50]Wei Ren, Dimos V. Dimarogonas, Raphaël M. Jungers:
Event-Triggered Tracking Control of Networked and Quantized Control Systems. CoRR abs/2110.09786 (2021) - [i49]Wei Ren, Eleftherios E. Vlahakis, Nikolaos Athanasopoulos, Raphaël M. Jungers:
Optimal Resource Scheduling and Allocation in Distributed Computing Systems. CoRR abs/2112.00708 (2021) - 2020
- [j52]Marco A. Gómez, Raphaël M. Jungers, Wim Michiels:
On the m-dimensional Cayley-Hamilton theorem and its application to an algebraic decision problem inferred from the H2 norm analysis of delay systems. Autom. 113: 108761 (2020) - [j51]Guillaume O. Berger, Raphaël M. Jungers:
Formal Methods for Computing Hyperbolic Invariant Sets for Nonlinear Systems. IEEE Control. Syst. Lett. 4(1): 235-240 (2020) - [j50]Costanza Catalano, Raphaël M. Jungers:
The Synchronizing Probability Function for Primitive Sets of Matrices. Int. J. Found. Comput. Sci. 31(6): 777-803 (2020) - [j49]Guillaume O. Berger, Pierre-Antoine Absil, Raphaël M. Jungers, Yurii E. Nesterov:
On the Quality of First-Order Approximation of Functions with Hölder Continuous Gradient. J. Optim. Theory Appl. 185(1): 17-33 (2020) - [j48]Carl P. Dettmann, Raphaël M. Jungers, Paolo Mason:
Lower bounds and dense discontinuity phenomena for the stabilizability radius of linear switched systems. Syst. Control. Lett. 142: 104737 (2020) - [j47]Dimitrios Dechouniotis, Nikolaos Athanasopoulos, Aris Leivadeas, Nathalie Mitton, Raphaël M. Jungers, Symeon Papavassiliou:
Edge Computing Resource Allocation for Dynamic Networks: The DRUID-NET Vision and Perspective. Sensors 20(8): 2191 (2020) - [j46]Benoît Legat, Pablo A. Parrilo, Raphaël M. Jungers:
Certifying Unstability of Switched Systems Using Sum of Squares Programming. SIAM J. Control. Optim. 58(4): 2616-2638 (2020) - [c56]Guillaume O. Berger, Raphaël M. Jungers:
Finite Data-Rate Feedback Stabilization of Continuous-Time Switched Linear Systems with Unknown Switching Signal. CDC 2020: 3823-3828 - [c55]Benoît Legat, Cláudio Gomes, Paschalis Karalis, Raphaël M. Jungers, Eva M. Navarro-López, Hans Vangheluwe:
Stability of Planar Switched Systems under Delayed Event Detection. CDC 2020: 5792-5797 - [c54]Raphaël M. Jungers:
Control in the IoT: How to deal with various heterogeneous non-idealities? ECC 2020: 1559 - [c53]Guillaume O. Berger, Raphaël M. Jungers:
Worst-case topological entropy and minimal data rate for state observation of switched linear systems. HSCC 2020: 4:1-4:11 - [c52]Antoine Aspeel, Amaury Gouverneur, Raphaël M. Jungers, Benoît Macq:
Optimal Measurement Budget Allocation For Particle Filtering. ICIP 2020: 1-5 - [i48]Antoine Aspeel, Amaury Gouverneur, Raphaël M. Jungers, Benoît Macq:
Optimal measurement budget allocation for particle filtering. CoRR abs/2005.08557 (2020) - [i47]Benoît Legat, Cláudio Gomes, Paschalis Karalis, Raphaël M. Jungers, Eva M. Navarro-López, Hans Vangheluwe:
Stability of Planar Switched Systems under Delayed Event Detection. CoRR abs/2009.04505 (2020) - [i46]Zheming Wang, Raphaël M. Jungers:
A data-driven method for computing polyhedral invariant sets of black-box switched linear systems. CoRR abs/2009.10984 (2020) - [i45]Zheming Wang, Raphaël M. Jungers, Chong-Jin Ong:
Computation of invariant sets via immersion for discrete-time nonlinear systems. CoRR abs/2010.00974 (2020) - [i44]Zheming Wang, Raphaël M. Jungers:
Immersion-based model predictive control of constrained nonlinear systems: Polyflow approximation. CoRR abs/2011.13255 (2020)
2010 – 2019
- 2019
- [j45]Joris Kenanian, Ayca Balkan, Raphaël M. Jungers, Paulo Tabuada:
Data driven stability analysis of black-box switched linear systems. Autom. 109 (2019) - [j44]François Gonze, Vladimir V. Gusev, Raphaël M. Jungers, Balázs Gerencsér, Mikhail V. Volkov:
On the Interplay Between Černý and Babai's Conjectures. Int. J. Found. Comput. Sci. 30(1): 93-114 (2019) - [j43]Costanza Catalano, Raphaël M. Jungers:
On Random Primitive Sets, Directable NFAs and the Generation of Slowly Synchronizing DFAs. J. Autom. Lang. Comb. 24(2-4): 185-217 (2019) - [j42]François Gonze, Raphaël M. Jungers:
Hardly Reachable Subsets and Completely Reachable Automata with 1-Deficient Words. J. Autom. Lang. Comb. 24(2-4): 321-342 (2019) - [j41]Matthew Philippe, Nikolaos Athanasopoulos, David Angeli, Raphaël M. Jungers:
On Path-Complete Lyapunov Functions: Geometry and Comparison. IEEE Trans. Autom. Control. 64(5): 1947-1957 (2019) - [j40]Benoît Legat, Pablo A. Parrilo, Raphaël M. Jungers:
An Entropy-Based Bound for the Computational Complexity of a Switched System. IEEE Trans. Autom. Control. 64(11): 4623-4628 (2019) - [c51]Raphaël M. Jungers, Paulo Tabuada:
Non-local Linearization of Nonlinear Differential Equations via Polyflows. ACC 2019: 1906-1911 - [c50]