B
Bertrand Raison
Researcher at University of Grenoble
Publications - 148
Citations - 3257
Bertrand Raison is an academic researcher from University of Grenoble. The author has contributed to research in topics: Fault (power engineering) & Grid. The author has an hindex of 23, co-authored 135 publications receiving 2841 citations. Previous affiliations of Bertrand Raison include Grenoble Institute of Technology & Joseph Fourier University.
Papers
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Models for Bearing Damage Detection in Induction Motors Using Stator Current Monitoring
TL;DR: New models for the influence of rolling-element bearing faults on induction motor stator current are described, based on two effects of a bearing fault: the introduction of a particular radial rotor movement and load torque variations caused by the bearing fault.
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Cascaded DC–DC Converter Photovoltaic Systems: Power Optimization Issues
TL;DR: This paper investigates the issues of ensuring global power optimization for cascaded dc-dc converter architectures of photovoltaic (PV) generators irrespective of the irradiance conditions and proposes a supervisory algorithm that attempts to establish the best suboptimal power regime.
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Forecasting photovoltaic array power production subject to mismatch losses
TL;DR: A novel method to forecast existing PV array production in diverse environmental conditions using field measurement data to identify module parameters once and for all and simulates PV arrays with adaptable module interconnection schemes in order to reduce mismatch losses.
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Radial Network Reconfiguration Using Genetic Algorithm Based on the Matroid Theory
B. Enacheanu,Bertrand Raison,Raphael Caire,Olivier Devaux,Wojciech Bienia,Nouredine Hadjsaid +5 more
TL;DR: A theoretical approach based on the graph and matroid theories (graphic matroid in particular) is considered in order to propose new intelligent and effective GA operators for efficient mutation and crossover well dedicated to the DN reconfiguration problem.
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Maximizing the Power Output of Partially Shaded Photovoltaic Plants Through Optimization of the Interconnections Among Its Modules
TL;DR: This paper makes an exhaustive study of the available interconnections among the modules of a shaded photovoltaic field and how they impact power production, and a clear relationship between the interConnections of the PV modules and their power output is proposed through empirical connection laws.