Work address:
University of Bordeaux (Engineering and digital sciences department)
IMS-lab, CNRS UMR 5218
351 Cours de la Libération, 33405 Talence, France
Bio sketch:
- I received a System’s Engineering Diploma degree from the University Politehnica of Bucharest, Romania, in 2008. My final year project, which I prepared during an Erasmus exchange at Grenoble INP, France, in 2008, focused on the development of an interactive software for robust digital controller design, system identification, and controller order reduction (see MIRCOD) based on the theoretical work of Dr. Ioan Doré Landau, who supervised my internship at GIPSA-lab.
- I joined the University Politehnica of Bucharest as Assistant Professor in 2008 and begun my PhD research one year later in a collaboration with the GIPSA-lab, University of Grenoble, France. My PhD research, which I defended in 2011 in Bucharest and in 2012 in Grenoble, focused on “Robust Design and Tuning of Active Vibration Control Systems” (pdf, 8.9 MB). My work was supervised by Dr. Ioan Doré Landau, Dr. Luc Dugard, and Prof. Dumitru Popescu. For this research, I received the best PhD award from the GdR MACS and the best PhD in Automatic Control by the EEA Club (April 2013) (see nomination in pdf).
- After a 16 month PostDoc at the Fluminance team of Inria Rennes – Bretagne Atlantique, I joined, as Associate Professor, the Automatic Control group of IMS-lab, University of Bordeaux, in 2014.
- I co-authored, with I. Landau, A. Castellanos, and A. Constantinescu, the book “Adaptive and Robust Active Vibration Control”, Springer, 2017 (see list of publications).
- My personal webpage is available at https://tudor-bogdan.airimitoaie.name/
- My publications list can also be checked at https://cv.hal.science/tudor-bogdanairimitoaie
- My Google Scholar page is here
Open positions:
- A PostDoc position with a duration of 1 to 2 years is available, see description here.
- I’m always interested to work with highly qualified and motivated students. Please contact me with CV and Letter of motivation to discuss possible collaborations.
Past positions:
- A 6 months Internship position (see here for more details).
Research topics:
- My main research interests are focused in the fields of (i) active noise and vibration control using adaptive regulation techniques and (ii) flat dynamic systems. Practical applications include active noise and vibration control, convertible UAV (combinations of VTOLs and conventional aircraft designs), wind energy systems and predictive maintenance.
Projects:
- (2023-) Participant in the KiWin project led by Beyound the Sea, which aims at building a kite based solution for maritime transportation. Together with colleagues from the IMS-lab, we will be working on the control, guidance, and supervision of the kite system.
- (2016-2019) Principal investigator for the french research agency (ANR) funded young researchers (JCJC) project MICA which deals with the problem of fault detection and isolation and fault tolerant control for convertible UAVs (please visit our website for more information).
PhD supervision
- Nonlinear control and supervision of a tethered kite for vessel propelling
Monika Pasquali, University of Bordeaux, France, in progress. - Modelling and robust control of a tethered kite for vessel propelling
Enso Ndreko, University of Bordeaux, France, in progress. - Identification and decision by coupling deep learning methods and knowledge models for predictive maintenance
Mathias Lecroart, University of Bordeaux, France, in progress. - Development of optimal anticipative control laws for powertrain
Evgeny Shulga, University of Bordeaux, France, defended on the 9th of September 2022. - Development of methods for the characterization of flat integer or fractional systems: application to path planning and fault detection of thermal systems
Rim Rammal, University of Bordeaux, France, defended on the 15th of January 2021 (tel). - Active noise control in the presence of uncertain and time-varying disturbances
Raúl Melendez Marquez, University of Grenoble, France, defended on the 23rd of May 2019 (tel). - Development of the CRONE control with robust anticipative effect
Asma Achnib, University of Bordeaux, France, defended on the 25th of April 2019 (tel).
Other scientific activities
- Member of the IFAC’s Technical Committee on Adaptive and Learning Systems.
- Member of the IEEE CSS’s Technical Committee on System Identification and Adaptive Control (TCSIAC).
- Associate editor (Conference Editorial Board member) of IEEE Control Systems Society, which organises the Conference on Decision and Control (CDC) and the American Control Conference (ACC).
- Associate editor (Conference Editorial Board member) of European Control Association (EUCA), which organises the annual European Control Conference (ECC).
- Other conference associate editor activities: ALCOS 2022.
- Robert-Houdin award at the french seminar on Experimental Vibratory Analysis (18-20 November 2014, Blois, France) for the paper: Landau I.D., Airimițoaie T.-B., Castellanos-Silva A., Alma M., Adaptive active vibration isolation – A control perspective (link 1 and link 2).
- Co-organiser of a Benchmark on Adaptive Regulation and an invited session at ECC’13.
Article (14)
Development of a high accuracy and stability test bench for ageing measurement of 16 nm FinFETs based FPGA Auteur(s): Justin Sobas, Tudor-Bogdan Airimitoaie, François Marc Lien HAL : https://hal.science/hal-04017664v1 Association of a fractional order controller with an optimal model-based approach for a robust, safe and high performing control of nonlinear systems Auteur(s): Evgeny Shulga, Patrick Lanusse, Tudor-Bogdan Airimitoaie, Stéphane Maurel Lien HAL : https://hal.science/hal-04238423v1 On a general structure for adaptation/learning algorithms - stability and performance issues Auteur(s): Ioan Doré Landau, Tudor-Bogdan Airimitoaie, Bernard Vau, Gabriel Buche Lien HAL : https://hal.science/hal-04045239v1 Improving performance of adaptive feedforward noise attenuators using a dynamic adaptation gain Auteur(s): Ioan Doré Landau, Bernard Vau, Tudor-Bogdan Airimitoaie, Gabriel Buche Lien HAL : https://hal.science/hal-04045279v2 Nonlinear Three-Tank System Fault Detection and Isolation Using Differential Flatness Auteur(s): Rim Rammal, Tudor-Bogdan Airimitoaie, Pierre Melchior, Franck Cazaurang Lien HAL : https://hal.science/hal-03601378v1 Robust Design of an Anticipative Feedforward-feedback Controller for MIMO Systems Auteur(s): Asma Achnib, Tudor-Bogdan Airimitoaie, Patrick Lanusse Lien HAL : https://hal.science/hal-03605660v1 Algorithms for Adaptive Feedforward Noise Attenuation--A Unified Approach and Experimental Evaluation Auteur(s): Tudor-Bogdan Airimitoaie, Ioan Doré Landau, Raúl Antonio Meléndez, Luc Dugard Lien HAL : https://hal.science/hal-02947816v1 Adaptive attenuation of unknown and time-varying narrow band and broadband disturbances Auteur(s): Ioan Doré Landau, Tudor-Bogdan Airimitoaie, Abraham Castellanos Silva Lien HAL : https://hal.science/hal-01168620v1 A Youla–Kucera parametrized adaptive feedforward compensator for active vibration control with mechanical coupling Auteur(s): Ioan Doré Landau, Tudor-Bogdan Airimitoaie, Marouane Alma Lien HAL : https://hal.science/hal-02156535v1 Discrete-time robust control with an anticipative action for preview systems Auteur(s): Asma Achnib, Tudor-Bogdan Airimitoaie, Patrick Lanusse, Sergey Abrashov, Mohamed Aoun, Manel Chetoui Lien HAL : https://hal.science/hal-01915210v1 Combined adaptive feedback and feedforward compensation for active vibration control using Youla–Kučera parametrization Auteur(s): Tudor-Bogdan Airimitoaie, Ioan Doré Landau Lien HAL : https://hal.science/hal-01870542v1 Beyond the delay barrier in adaptive feedforward active noise control using Youla -Kučera parametrization Auteur(s): Ioan Doré Landau, Raúl Antonio Meléndez, Tudor-Bogdan Airimitoaie, Luc Dugard Lien HAL : https://hal.science/hal-02136074v1 Benchmark on Adaptive Regulation - Rejection ofunknown/time-varying multiple narrow band disturbances Auteur(s): Ioan Doré Landau, Abraham Castellanos Silva, Tudor-Bogdan Airimitoaie, Gabriel Buche, Mathieu Noe Lien HAL : https://hal.science/hal-01394189v1 Robust and Adaptive Active Vibration Control Using an Inertial Actuator Auteur(s): Tudor-Bogdan Airimitoaie, Ioan Doré Landau Lien HAL : https://hal.science/hal-01394199v1Conference proceedings (26)
Dynamic variable step size LMS adaptation algorithms---Application to adaptive feedforward noise attenuation Auteur(s): Tudor-Bogdan Airimitoaie, Bernard Vau, Dariusz Bismor, Gabriel Buche, Ioan Doré Landau Lien HAL : https://hal.science/hal-04509676v1 Flat dynamic model analysis of a delta-wing convertible aircraft Auteur(s): Monika Pasquali, Tudor-Bogdan Airimitoaie, Patrick Lanusse Lien HAL : https://hal.science/hal-04671587v1 Recursive identification with regularization and on-line hyperparameters estimation Auteur(s): Bernard Vau, Tudor-Bogdan Airimitoaie Lien HAL : https://hal.science/hal-04671592v1 Can dynamic adaptation gain speed up recursive least squares algorithm? Auteur(s): Ioan Doré Landau, Tudor-Bogdan Airimitoaie, Bernard Vau, Gabriel Buche Lien HAL : https://hal.science/hal-04790798v1 Optimal CRONE control of the intake manifold pressure of a spark ignition internal combustion engine Auteur(s): Evgeny Shulga, Stéphane Maurel, Tudor-Bogdan Airimitoaie, Patrick Lanusse Lien HAL : https://hal.science/hal-04163207v1 Convertible delta-wing aircraft for teaching and research Auteur(s): Tudor-Bogdan Airimitoaie, Christophe Farges, Loïc Lavigne, Franck Cazaurang Lien HAL : https://hal.science/hal-02378547v1 Artificial Intelligence for Defence in an EQF6 Training and Education Program, From the Design to the Execution Auteur(s): Eric Grivel, Baptiste Pesquet, Tudor-Bogdan Airimitoaie, Akka Zemmari Lien HAL : https://hal.science/hal-04005245v1 Principles of a safe and high performing CRONE control of nonlinear systems Auteur(s): Patrick Lanusse, Tudor-Bogdan Airimitoaie, Evgeny Shulga, Stéphane Maurel Lien HAL : https://hal.science/hal-04163214v1 Improving adaptation/learning transients using a dynamic adaptation gain/learning rate -Theoretical and experimental results Auteur(s): Ioan Doré Landau, Tudor-Bogdan Airimitoaie, Bernard Vau, Gabriel Buche Lien HAL : https://hal.science/hal-03823964v2 Does a general structure exist for adaptation/learning algorithms? Auteur(s): Ioan Doré Landau, Tudor-Bogdan Airimitoaie Lien HAL : https://hal.science/hal-03738223v1 Model Predictive Control of engine intake manifold pressure with an uncertain model Auteur(s): Evgeny Shulga, Patrick Lanusse, Tudor-Bogdan Airimitoaie, Stéphane Maurel, Arnaud Trutet Lien HAL : https://hal.science/hal-03580824v1 Adaptive Youla-Kucera Parametrization for Active Noise and Vibration Attenuation Auteur(s): Ioan Doré Landau, Tudor-Bogdan Airimitoaie, Raúl Antonio Meléndez, Gabriel Buche, Luc Dugard Lien HAL : https://hal.science/hal-03119913v2 Preview control of engine intake manifold pressure Auteur(s): Evgeny Shulga, Patrick Lanusse, Tudor-Bogdan Airimitoaie, Stéphane Maurel, Arnaud Trutet Lien HAL : https://hal.science/hal-02891103v1 Unimodular Completion for Computation of Fractionally Flat Outputs for Linear Fractionally Flat Systems Auteur(s): Rim Rammal, Tudor-Bogdan Airimitoaie, Pierre Melchior, Franck Cazaurang Lien HAL : https://hal.science/hal-02885984v1 Robust Anticipative Controller Design with Application to A High Dynamic Engine Testbed Auteur(s): Tudor-Bogdan Airimitoaie, Patrick Lanusse, Asma Achnib Lien HAL : https://hal.science/hal-02885931v1 On the Choice of Multiple Flat Outputs for Fault Detection and Isolation of a Flat System Auteur(s): Rim Rammal, Tudor-Bogdan Airimitoaie, Franck Cazaurang, Jean Lévine, Pierre Melchior Lien HAL : https://hal.science/hal-02885978v1 Experimental evaluation of a new class of algorithms for active noise attenuation Auteur(s): Ioan Doré Landau, Tudor-Bogdan Airimitoaie, Raúl Antonio Meléndez, Gabriel Buche, Luc Dugard Lien HAL : https://hal.science/hal-02959422v1 Anticipative Robust Design Applied to a Water Level Control System Auteur(s): Asma Achnib, Tudor-Bogdan Airimitoaie, Patrick Lanusse, Ayadi Guefrachi, Mohamed Aoun, Manel Chetoui Lien HAL : https://hal.science/hal-02056814v1 Convertible Aircraft Dynamic Modelling and Flatness Analysis Auteur(s): Tudor-Bogdan Airimitoaie, Gemma Prieto Aguilar, Loïc Lavigne, Christophe Farges, Franck Cazaurang Lien HAL : https://hal.science/hal-01719054v1 Why one should use Youla-Kucera parametrization in adaptive feedforward noise attenuation? Auteur(s): Ioan Doré Landau, Tudor-Bogdan Airimitoaie, Raúl Antonio Meléndez, Luc Dugard Lien HAL : https://hal.science/hal-02190768v1 Model Predictive Control Tuning: Methods and Issues. Application to steering wheel position control Auteur(s): Sergey Abrashov, Tudor-Bogdan Airimitoaie, Patrick Lanusse, François Aioun, Rachid Malti, Xavier Moreau, Franck Guillemard Lien HAL : https://hal.science/hal-01707608v1 Generalized predictive controller performances in an anticipative context Auteur(s): Asma Achnib, Tudor-Bogdan Airimitoaie, Sergey Abrashov, Patrick Lanusse Lien HAL : https://hal.science/hal-01701080v1 Model Identification and control of a Convertible Aircraft (MICA) Auteur(s): Tudor-Bogdan Airimitoaie, Loïc Lavigne, Kelly Cohen, Christophe Farges, Franck Cazaurang Lien HAL : https://hal.science/hal-01719041v1 Atténuation active des interférences vibrationnelles – Méthodologie et Evaluation expérimentale Auteur(s): Tudor-Bogdan Airimitoaie, Ioan Doré Landau Lien HAL : https://hal.science/hal-01394202v1 Atténuation active robuste et adaptative desinterférences vibrationnelles Auteur(s): Ioan Doré Landau, Tudor-Bogdan Airimitoaie Lien HAL : https://hal.science/hal-01394183v1 Adaptive active vibration isolation – A control perspective Auteur(s): Ioan Doré Landau, Tudor-Bogdan Airimitoaie, Abraham Castellanos Silva, Marouane Alma Lien HAL : https://hal.science/hal-01237933v1Send a email to Tudor-Bogdan AIRIMITOAIE :