• Publications
  • Influence

Claim Your Author Page
Ensure your research is discoverable on Semantic Scholar. Claiming your author page allows you to personalize the information displayed and manage your publications. Semantic Scholar automatically creates author pages based on data aggregated from public sources and our publisher partners.
  • Xavier Jannot, J. Vannier, Claude Marchand, Mohamed Gabsi, Jacques Saint-Michel, Daniel Sadarnac
  • Engineering
  • IEEE Transactions on Energy Conversion
  • 2011 (First Publication: 1 June 2011)
  • High-speed electric drive design is concerned with paying particular attention to thermal and mechanical design of the machine. Therefore, this paper proposes a multiphysic modeling of an interiorExpand
  • Yacine Amara, Lionel Vido, Mohamed Gabsi, Emmanuel Hoang, A. Hamid Ben Ahmed, Michel Lecrivain
  • Computer Science
  • IEEE Transactions on Vehicular Technology
  • 2009 (First Publication: 1 June 2009)
  • In this paper, the suitability of a class of electric machines for vehicle traction applications is discussed. These machines, which are known as hybrid excitation synchronous machines, combineExpand
  • Guangjin Li, Javier Ojeda, Sami Hlioui, Emmanuel Hoang, Michel Lecrivain, Mohamed Gabsi
  • Physics
  • IEEE Transactions on Magnetics
  • 2012 (First Publication: 1 June 2012)
  • This paper presents a new method to minimize the torque ripple of a 3-phase, 6-slot, and 4-pole mutually coupled switched reluctance motor (MCSRM 6/4). The difference between a MCSRM and a classicalExpand
  • Benjamin Gaussens, Emmanuel Hoang, Olivier de la Barrière, Jacques Saint-Michel, Michel Lécrivain, Mohamed Gabsi
  • Physics
  • IEEE Transactions on Magnetics
  • 2012 (First Publication: 26 April 2012)
  • This paper presents a general and accurate approach to determine the no-load flux of field-excited flux-switching (FE-FS) machines. These structures are inherently difficult to model due to theirExpand
  • Xiaobin Liang, Guangjin Li, Javier Ojeda, Mohamed Gabsi, Zhuoxiang Ren
  • Computer Science, Engineering
  • IEEE Transactions on Industrial Electronics
  • 2014 (First Publication: 1 September 2014)
  • This paper presents the numerical modeling of a classical switched reluctance motor (SRM) and a mutually coupled SRM (MCSRM); both have three phases with 12 slots and 8 poles. The multiphysics modelsExpand