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Founded in 1980, the Research Center for Automatic Control (CRAN) is a joint research unit between the University of Lorraine and the French National Scientific Research Center (CNRS). It also hosts researchers from the Lorraine Institute of Oncology (ICL - Alexis Vautrin), the University Hospital of Nancy, the Regional Hospital Center of Metz-Thionville and the LIST in Luxembourg-City.

As of January 1, 2023, the laboratory had 107 academics, 3 emeritus, 10 CNRS researchers, 11 other researchers from UL, ICL and CHU or external organizations, 13 post-doctoral fellows, 90 doctoral students and 33 (including 28 permanent and 5 fixed-term contracts) engineers, technicians or administrators. It is part of the Charles Hermite Automatique, Informatique, Mathématiques de Lorraine Research Federation and the Automatique, Mathématiques, Informatique et leurs Interactions (AM2I) scientific pole of the University of Lorraine.

Based on digital sciences, the laboratory is internationally recognized for its activities in the fields of signal and image processing, control and computer engineering, as well as for its work in health in connection with biology and neuroscience. Today, its fundamental and applied research enables it to accompany the changes in society and goes beyond the traditional industrial issues: energy production, management of the intelligent city or transport. In health, it is opening up to diagnosis and care in cancerology and neurology. They are crossing sociology, listening to social behaviors and opinion dynamics, and investing in the field of sustainable development, in the service of the circular economy and ecological systems.

The departments


 

 

Collaborations

 

Key words

Nonlinear systems Multi-component system Observability Fiabilité Diagnostic Optimization Model-free control Simulation Reliability Photodynamic therapy Linear matrix inequalities Robustness Data reconciliation Graph theory Unknown inputs E-maintenance Fault detection Prognostic Lyapunov methods Modeling Instrumental variable Fault-tolerant control Uncertainty Breast cancer Maintenance Modélisation Event-triggered control Sûreté de fonctionnement Classification LPV systems Wireless sensor networks Stability Systèmes linéaires Stabilization Linear matrix inequality Bilinear systems Nonlinear observer Observer design LMIs Hybrid systems Fault diagnosis Systems Engineering Thérapie photodynamique Nonlinear system Glioblastoma Estimation d'état Machine learning Neural networks Observer-based control Lyapunov stability Diagnosis Identification Parameter estimation Internet of Things Neural network Dependability Fluorescence Networked control systems Optimal control Singular systems Safety Radiotherapy Cancer State estimation Estimation Multi-agent systems Détection de défaut ingénierie Systèmes non linéaires Epilepsy System identification Monte Carlo simulation Prognostics Flatness LMI Consensus Ontology Multiple model Descriptor systems EEG Interoperability Stability analysis Switched systems Observers Linear systems Modelling Security Fault detection and isolation Fault estimation Fault tolerant control Reconfiguration Optimisation Observer Availability Synchronization Robustesse Industry 40 Uncertain systems MTHPC Robust control Energy efficiency