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Institute of Information and Communication Technologies, Electronics and Applied Mathematics

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Institute of Information and Communication Technologies, Electronics and Applied Mathematics

Dynamical Systems, Control and Optimization

icteam | Louvain-la-Neuve

The Dynamical Systems, Control and Optimization group gathers about a dozen professors and over 30 PhD students and postdoctoral researchers.

Principal Investigators :

Pierre-Antoine Absil, Gianluca Bianchin, Vincent Blondel, Frédéric Crevecoeur, Jean-Charles Delvenne, Yves Deville, François Glineur, Geovani Grapiglia, Julien Hendrickx, Raphaël Jungers, Philippe Lefèvre, Benoît Legat, Estelle Massart, Pierre Schaus, Hélène Verhaeghe

Research Areas :

Modeling and identification

Identification of dynamical systems is one of the first steps in the study of dynamical systems, since it addresses the issue of finding an appropriate model for its input/output behavior. Much of our work on identification has focused on understanding the connections between, identifiability, informative experiments, the information matrix and the minimization of a prediction error criterion.

Multiagent systems

Several new multi-agent models have been proposed and studied with behavior reminiscent of the partial entrainment behavior of the Kuramoto-Sakaguchi model, but with a greater potential for analysis and with applications to systems not related to coupled oscillators. The main emphasis on these dynamic models is to analyze the asymptotic clustering behavior. The analysis of such models is relevant in the study of opinion formation, interconnected water basins, platoon formation in cycling races, and the minimum cost flow problem.

Control of Nonlinear and Infinite Dimensional Systems

We study fundamental issues in modeling, control design and stability analysis of physical networks described by hyperbolic systems of conservation laws and by distributed parameter systems modeling e.g. tubular reactors. We also study problems related to optimal prediction of nonlinear systems, such as the flow in channels (modeled by Saint-Venant equations), the modeling of the water level in water basins in order to prevent flooding and the prediction and control of traffic jams.

Optimization and Computational Methods

Optimization techniques play a fundamental role in the area of dynamical systems and they are being developed and analyzed at several levels, depending on the type of variables one wishes to optimize. Variables can be discrete (as in graph theoretic problems) or continuous (as in parametric optimization), but can also be infinite dimensional (as in optimal control over function spaces) and constrained (as in optimization on manifolds or on cones). The group has activities in each of these areas and also develops special purpose numerical techniques for dealing efficiently with such problems.

Biochemical Processes

The activities here include microbial ecology and the modeling of wastewater treatment, including applications to various biological wastewater systems. We developed population balance models covering a large spectrum of applications in the industry of polymer production, crystallization, biotechnology or any process in which the size distribution of particles is essential for process quality. We also study the design and application of observers converging in finite time for a class of fed-batch processes.

Biomedical Engineering

We combine theoretical and experimental approaches to investigate the neural control of movement and its interactions with our environment. The mathematical models that are developed are based on experimental results from both normal and pathological subjects (clinical studies) and focus on the interaction between different types of eye movements and on eye/hand coordination. Our main research objective is to gain further insight into the nature and characteristics of high-level perceptual and motor representations in the human brain. 

Most recent publications

Below are listed the 10 most recent journal articles and conference papers produced in this research area. You also can access all publications by following this link : see all publications.


Journal Articles


1. Doré, Sydney; Coutinho, Jonathan; Khan, Aarlenne Z.; Lefèvre, Philippe; Blohm, Gunnar. Latency and amplitude of catch-up saccades to accelerating targets. In: Journal of Neurophysiology, Vol. 133, no.1, p. 3-13 (2025). doi:10.1152/jn.00123.2024. http://hdl.handle.net/2078.1/297618

2. AliAbbasi, Easa; Muzammil, Muhammad; Sirin, Omer; Lefèvre, Philippe; Martinsen, Ørjan Grøttem; Basdogan, Cagatay. Effect of Finger Moisture on Tactile Perception of Electroadhesion. In: IEEE Transactions on Haptics, Vol. 17, no.4, p. 841-849 (2024). doi:10.1109/toh.2024.3441670. http://hdl.handle.net/2078.1/297619

3. Hoffmann, Anne; Crevecoeur, Frédéric. Dissociable Effects of Urgency and Evidence Accumulation during Reaching Revealed by Dynamic Multisensory Integration. In: eneuro, Vol. 11, no.12, p. ENEURO.0262-24.2024 (2024). doi:10.1523/eneuro.0262-24.2024. http://hdl.handle.net/2078.1/297321

4. Kalidindi, Hari Teja; Crevecoeur, Frédéric. Task-dependent coarticulation of movement sequences. In: eLife, Vol. 13 (2024). doi:10.7554/elife.96854.3. http://hdl.handle.net/2078.1/297311

5. Samari, Behrad; Rossa, Matteo Della; Lavaei, Abolfazl; Soudjani, Sadegh; Jungers, Raphaël M. Multiplicative Barrier Certificates for Probabilistic Safety of Markov Jump Systems. In: IFAC-PapersOnLine, Vol. 58, no.11, p. 63-68 (2024). doi:10.1016/j.ifacol.2024.07.426. http://hdl.handle.net/2078.1/297035

6. de Walque, Jean-Marc; de Terwangne, Christophe; Jungers, Raphaël M.; Pierard, Sophie; Beauloye, Christophe; Laarbaui, Fatima; Dechamps, Melanie; Jacquet, Luc Marie. Potential for recovery after extremely prolonged VV-ECMO support in well-selected severe COVID-19 patients: a retrospective cohort study. In: BMC Pulmonary Medicine, Vol. 24, no.1 (2024). doi:10.1186/s12890-023-02836-3. http://hdl.handle.net/2078.1/297033

7. Brudermüller, Lara; Berger, Guillaume; Jankowski, Julius; Bhattacharyya, Raunak; Jungers, Raphaël M.; Hawes, Nick. CC-VPSTO: Chance-Constrained Via-Point-based Stochastic Trajectory Optimisation for Safe and Efficient Online Robot Motion Planning. In: arXiv preprint, (2024). doi:10.48550/arXiv.2402.01370. http://hdl.handle.net/2078.1/297027

8. Calbert, Julien; Banse, Adrien; legat benoit; Jungers, Raphaël M. Dionysos.jl: a Modular Platform for Smart Symbolic Control. In: JuliaCon Proceedings, Vol. 6, no.66, p. 160 (2024). doi:10.21105/jcon.00160. http://hdl.handle.net/2078.1/297024

9. Banse, Adrien; Romao, Licio; abate, Alessandro; Jungers, Raphaël M. Data-driven memory-dependent abstractions of dynamical systems via a Cantor-Kantorovich metric. In: IEEE Transactions on Automatic Control, (2024). doi:10.48550/arXiv.2405.08353 (Soumis). http://hdl.handle.net/2078.1/297007

10. Calbert, Julien; Neves Egidio, Lucas; Jungers, Raphaël M. Smart Abstraction Based on Iterative Cover and Non-Uniform Cells. In: IEEE Control Systems Letters, Vol. 8, p. 2301-2306 (2024). doi:10.1109/lcsys.2024.3409106. http://hdl.handle.net/2078.1/296995


Conference Papers


1. Van Brandt, Léopold; Delvenne, Jean-Charles; Flandre, Denis. Variability-Aware Noise-Induced Dynamic Instability of Ultra-Low-Voltage SRAM Bitcells. In: IEEE Xplore, 2024, 979-8-3503-8122-1 xxx. doi:10.1109/lascas60203.2024.10506179. http://hdl.handle.net/2078.1/294779

2. Van Brandt, Léopold; Flandre, Denis; Delvenne, Jean-Charles. Stochastic Nonlinear Dynamical Modelling of SRAM Bitcells in Retention Mode. In: IEEE Xplore, 2024, 979-8-3503-7152-9 xxx. doi:10.1109/edtm58488.2024.10512067. http://hdl.handle.net/2078.1/294774

3. Bianchin, Gianluca; Delvenne, Jean-Charles. Cycle families and Resilience of Dynamical Networks. In: IEEE Xplore, 2024, 979-8-3503-8265-5 xxx. doi:10.23919/acc60939.2024.10644385. http://hdl.handle.net/2078.1/294749

4. Bousselmi, Nizar; Pustelnik, Nelly; Hendrickx, Julien; Glineur, François. Comparison of Proximal First-Order Primal and Primal-Dual Algorithms via Performance Estimation. In: Eusipco 2024, 2024, 978-9-4645-9361-7, p. 2647-2651 xxx. doi:10.23919/EUSIPCO63174.2024.10715388. http://hdl.handle.net/2078.1/293043

5. Vernimmen, Pierre; Glineur, François. Convergence analysis of an inexact gradient method on smooth convex functions. In: ESANN 2024 proceedings, 2024, 978-2-87587-090-2 xxx. doi:10.14428/esann/2024.es2024-171. http://hdl.handle.net/2078.1/293029

6. Vizuete Haro, Renato Sebastian; Frasca, Paolo; Panteley, Elena. SIS Epidemics on Open Networks: A Replacement-Based Approximation. In: n/. (2024). 2024 xxx. doi:10.48550/arXiv.2403.16727; 10.23919/ecc64448.2024.10591224. http://hdl.handle.net/2078.1/292993

7. Vary, Simon; Ablin, Pierre; Gao, Bin; Absil, Pierre-Antoine. Optimization without Retraction on the Random Generalized Stiefel Manifold. In: Proceedings of Machine Learning Research. Vol. 235, p. 49226-49248 (2024). MLResearchPress, 2024 xxx. http://hdl.handle.net/2078.1/290550

8. Jungers, Raphaël M.; Calbert, Julien; Mattenet, Sébastien; Girard, Antoine. Memoryless concretization relation. In: Proceedings of the 27th ACM International Conference on Hybrid Systems: Computation and Control. Vol. 1, no.1, p. 147-155 (2024). Proceedings of the 27th International Conference on Hybrid Systems: Computation and Control, 2024 xxx. doi:10.1145/3641513.3650132. http://hdl.handle.net/2078.1/287973

9. Jungers, Raphaël M.. Statistical comparison of Path-Complete Lyapunov Functions: a Discrete-Event Systems perspective. In: In Proc. of IFAC-WODES'24. (2024). 2024 xxx. http://hdl.handle.net/2078.1/285977

10. Debauche, Virginie; Jungers, Raphaël M.. Formal Synthesis of Lyapunov Stability Certificates for Linear Switched Systems using ReLU Neural Networks. 2024 xxx. http://hdl.handle.net/2078.1/283182