Speakers: A. Lamrini, Otmane El-Karkouri, Jenny YOUSSEF, Adel MERABET, Daniel MARULANDA, Idrissa BALDE, Titouan CAUBEL, Intissar JYAD

Location: Room B2.54

Talk Titles:

​A. Lamrini  – Conception et Implémentation d’une Plateforme Opérationnelle de Téléopération pour Véhicule Autonome Connecté

​Otmane El-Karkouri – Amélioration d’un système antiblocage de roues par des nouvelles techniques de commande par recherche d’extremum.

​Jenny YOUSSEF – Modélisation et commande d'un véhicule électrique

​Adel MERABET – Estimation Avancée de la dérive et du taux de glissement pour l'optimisation de l'usure des pneus et de la maintenance prédictive

​Daniel MARULANDA – Modélisation des phénomènes de dégradation dans les matériaux utilisés dans la fabrication des surfaces de contrôle d'une navette spatiale

​Idrissa BALDE – Modélisation de la chaine de propulsion thermique/électrique et synthèse d'une commande robuste pour un drone aérien hybride

​Titouan CAUBEL – Modélisation et synthèse d'une loi de retour d'effort pour le bloc volant d'un simulateur de conduite

​Intissar JYAD – Vers la conception de lois de commande robustes pour une régulation de la glycémie entièrement automatisée

TODO

TODO

Speaker: Dr. Radislav A. Potyrailo

Location: Conference Room - IMS Lab

Title: Impact of Materials, Transducers, and Contemporary Multivariate Analytics On Design of Next-Generation Gas and Biological Sensors

Abstract: Contemporary monitoring requirements of gases and liquids for demanding applications such as environmental surveillance, medical diagnostics, food and industrial safety, biopharmaceutical process control, homeland security, and others push the limits of existing detection concepts where we may reach their fundamental performance limits. These and other modern monitoring scenarios demand sensing with higher accuracy, enhanced stability, improved sensitivity, and lower power consumption; often all in unobtrusive formats and at low cost. We are developing new generation of sensors that bridge the gap between existing and contemporary required capabilities.

Our sensors utilize radio-frequency and optical detection principles and achieve required performance via system analytics.

The system analytics is our methodology to deliver high performance sensing via new sensor design rules that include transducer with several uncorrelated outputs, sensed environment (e.g. sensing film or sensing volume) with diverse intrinsic properties detected by the transducer, and multivariate signal processing algorithms (a.k.a. machine learning). We will illustrate the capabilities of these multivariable (multi-parameter) sensors to quantify individual components in mixtures, reject interferences, and correct for environmental instabilities.

Our multivariable sensors when coupled with edge data analytics boost data analytics accuracy and reduce data analytics demands for computing and electrical power. Examples of scenarios where such developed multivariable sensors are important include wearable and remotely deployed sensors, autonomous robotics, and home health.

In these and many other scenarios, high-performance advantages of traditional mature instruments are cancelled by application-specific requirements that demand unobtrusive form factors, low or no power consumption, no maintenance, and continuous operation.

Speaker: Dr. Stéphane VICTOR

Location: IMS Lab - Salle Conférence

Title: Windspeed turbulence system identification and signal generator

Abstract: The talk will cover key aspects of wind turbulence simulation, discussing fundamental principles of stochastic and non-stationary modeling for mechanical systems operating outdoors.

Below is an outline of the content:

   Wind Speed Turbulence Identification and Signal Generation

   Wind Spectral Characteristics and Power Spectral Density

   Modeling with the von Karman Model and Its Limitations for Low-Altitude Systems

   Development of New Fractional Models for Specific Conditions 

   Realistic Wind Speed Generator 

Speaker: Prof Oliveira Gustavo

Location: amphi JP Dom, à l'IMS

Title: MPC strategies for Enhancing performance of MicroGrids with Green Hydrogen-based Sources , 

Abstract: None

Speaker: Dr. Peter Magnee

Location: IMS Amphitheater

Title: Silicon Technology for RF Applications 

Abstract: The talk will delve into key aspects of silicon technology for RF applications, including some fundamental device physics, SiGe HBT integration, and back-end interconnect. Below is a brief outline:

   Some Device Physics

   Technology Basics

   SiGe HBT Integration

   Back-end Interconnect