Michel KIEFFER
Professor
michel.kieffer@l2s.centralesupelec.fr
L2S, CentraleSupélec
3 rue Joliot Curie
91190 Gif-sur-Yvette, France
Combined data-driven and model-driven location of lightning strikes: Application to meshed HVDC grids
Localization of Partially Hidden Moving Targets Using a Fleet of UAVs via Bounded-Error Estimation
Load prediction of parcel pick-up points: model-driven vs data-driven approaches
Low-complexity graph-based traveling wave models for HVDC grids with hybrid transmission lines: Application to fault identification
Admission Control and Resource Reservation for Prioritized Slice Requests with Guaranteed SLA under Uncertainties
Distributed event-triggered formation control for multi-agent systems in presence of packet losses
Fast fault identification in bipolar HVDC grids: a fault parameter estimation approach
Bounded-error target localization and tracking using a fleet of UAVs
Uncertainty-Aware Resource Provisioning for Network Slicing
MICN: a Network Coding Protocol for ICN with Multiple Distinct Interests per Generation
Compensation de la latence Glass-to-Glass via extrapolation du flux vidéo : faisabilité et cas d’usage
Set-membership vs. stochastic approaches for target localization with UAVs
[Tutorial] Linear Video Coding and Transmission Schemes for Next Generation Video Applications
Towards zero-latency video transmission through frame extrapolation
[Tutorial] Soft Video Delivery: Getting seamless quality adaptation in mobile and latency-critical applications
Goal-oriented data compression: Application to an Lp-norm type performance metric
Vers une transmission vidéo sans latence par l’extrapolation d’images
Energy-efficient transmission policies for the linear quadratic control of scalar systems
A Comparative Study of the Whitening Methods in Linear Video Coding and Transmission Schemes
Localization of partially hidden targets using a fleet of UAVs via robust bounded-error estimation
Joint Source-Channel Coding and Decoding
Robust Network Coding
Heterogeneous and opportunistic wireless networks
Multimedia signal processing for wireless delivery
Signal Processing Meets Network Layers: Joint Protocol-Channel Decoding
Two Approaches for Guaranteed State Estimation of Nonlinear Continuous-Time Models
Verified global optimization for estimating the parameters of nonlinear models
Joint Protocol-Channel decoding: Taking the best from noisy packets
Reliably safe path planning using interval analysis
Robust Wireless Network Coding – An Overview
Joint Source-Channel Decoding. A Cross-Layer Perspective with Applications in Video Broadcasting over Mobile and Wireless Networks
Joint Source-Channel Decoding. A Cross-Layer Perspective with Applications in Video Broadcasting over Mobile and Wireless Networks
Distributed bounded–error parameter and state estimation in networks of sensors
Applied Interval Analysis with Examples in Parameter and State Estimation, Robust Control and Robotics
Estimation et traitement garanti des incertitudes de mesure : applications en électrochimie
Nonlinear identification based on unreliable priors and data with application to robot localization
Transient based method for controlling protection actions in an electric power transmission and/or distribution system
Transient based method for identifying faults in a high / medium voltage electric power transmission system, related fault identification module and high / medium voltage electric power transmission and / or distribution system equipped with such fault identification module
Method and apparatus for mapping network slices onto network infrastructures with SLA guarantee
Statistical multiplexing of distributed video streams
A video packet scheduling method for multimedia streaming
Scheduling Method for Data Streaming in a Telecommunication Network Infrastructure
Joint Encoder and Buffer Regulation for Statistical Multiplexing of Multimedia Contents
Method for allocating bit rates to video programs transmitted within a fixed rate channel
Method and apparatus for decoding block codes
Estimation ensembliste par analyse par intervalles Application à la localisation d’un véhicule
CentraleSupélec,
3, rue Joliot Curie,
91190 Gif-sur-Yvette
Tutelles
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