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Bienvenue sur la collection HAL de l'équipe SDO du LARIS
Direction | Sébastien LAHAYE
Référent·e HAL | Marie-Françoise GÉRARD
Fichiers
101
Références
134
Proportion d'Open Access
51 %
Mots-Clés
Apprentis-sage automatique
Partially observed Petri net
Receding horizon
Idempotent semirings
Problème inverse
Sliding Horizon
Arduino
Timed event graphs
Computer vision
Branch-and-check
Cycle time
Interval Analysis
Algebraic form min
Operations research
Iterated local search
Procédé thermique
Inverse problem
Algebra
Linear programming
Affec-tation dynamique de position
MQTT
+ automata
Continuous programming
Weighted timed event graphs WTEGs
Algebraical approach
LiDAR Measurements
Inverse problems
Estimation
Analytical Redundancy Relations
49Kxx
Optimization
Min-plus algebra
Linear actuator
Crop Navigation
Healthcare
Biped robot
Line extraction
Team Orienteering
+
Robotique mobile
Timed Event Graphs
Synchronization
Modeling
Algèbre max
Backdrivability
P-time Petri Nets
Integer linear programming
Interval arithmetic
Discontinuous Galerkin method
Discrete event systems
Mobile robots
Conjugate gradient method
Cumulative resource
Méthode du gradient conjugué
Analyse par intervalles
Optimal control
Algebra Tropical
Online parameters estimation
Dioid
Fault diagnosis
Large scale Instances
IoT
Raspberry Pi
Identification paramétrique
+ algebra
Diagnostic
Tropical algebra
Observer
Observers
Control
Parametric identification
Partial differential equations
SLAM
LMI
Diagnosis
ALNS
Interval analysis
Petri nets
Max
Discrete-event systems DESs
Nonlinear PDE
Discrete-event systems
Max-plus systems
Partially Observable
Timed Petri nets
Dioids
Scheduling
Affectation de position de stockage
Algebraic description
State estimation
Analytical redundancy relationships
Adjustment
+-Algebra
Energetic reasoning
Just-in-time control
Kalman filter
Expérimentation
Stochastic Filtering
Max-plus algebra
Algorithms