F
Franck Gechter
Researcher at University of Lorraine
Publications - 95
Citations - 874
Franck Gechter is an academic researcher from University of Lorraine. The author has contributed to research in topics: Platoon & Multi-agent system. The author has an hindex of 18, co-authored 92 publications receiving 760 citations. Previous affiliations of Franck Gechter include Universite de technologie de Belfort-Montbeliard & United States Department of Energy.
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Holonic multilevel simulation of complex systems: Application to real-time pedestrians simulation in virtual urban environment
TL;DR: A multilevel simulation model is proposed to allow the use of both microscopic and macroscopic techniques, based upon Holonic Multi-Agent Systems which offer a promising approach for developing applications in complex domains characterised by a hierarchical structure.
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Virtual Intelligent Vehicle Urban Simulator: Application to Vehicle Platoon Evaluation
TL;DR: The architecture of the simulation/prototyping tool named Virtual Intelligent Vehicle Urban Simulator ( vivus) is presented to overcome the general drawbacks of classical solutions by providing the possibility of designing a vehicle virtual prototype with simulated embedded sensors and physical properties.
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Vehicle platoon control with multi-configuration ability
TL;DR: This paper presents an approach in which each platoon vehicle follows a virtual vehicle, in order to cope with issues such as platoon geometries, which are encountered in a wide range of field such as the military or agriculture.
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A new approach for FPGA-based real-time simulation of power electronic system with no simulation latency in subsystem partitioning
TL;DR: This paper proposes a novel parallel simulation approach which has no time step latency in the whole system division, from which a numerically stable system modeling can be realized.
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FPGA-Based Real-Time Simulation of High-Power Electronic System With Nonlinear IGBT Characteristics
TL;DR: A new piecewise HVIGBT model, considering its driver circuit effect and parasite parameter, is proposed for FPGA-based real-time simulation applications and could provide accurate system-level performance of the power electronic converter but also give an insight into the transient behavior effect of high-power electronic system.