R. Ray, J. Jenkins, W. Burkhalter, H. Foster, R. Ray et al., A review of analytical methods for solid rocket motor grain analysis AIAA Paper 4506 Analytical methods for predicting grain regression in tactical solid-rocket motors Design and optimization of 3D radial slot grain configuration, Journal of Spacecraft and Rockets Chinese Journal of Aeronautics Aerospace Science and Technology, vol.414, issue.1, pp.689-693, 2003.

M. A. Willcox, Solid propellant grain design and burnback simulation using a minimum distance function Journal of propulsion and power 23, S. Augoula and R. Abgrall, High order numerical discretization for Hamilton?Jacobi equations on triangular meshes, pp.465-475, 2000.

J. S. Sachdev, C. P. Groth, J. J. Gottlieb-wang, T. L. Jackson, and L. Massa, Parallel AMR scheme for turbulent multi-phase rocket motor core flows, 17 th AIAA Computational Fluid Dynamics Conference Numerical simulation of heterogeneous propellant combustion by a level set method, Combustion Theory and Modeling, vol.8, issue.2, pp.227-254, 2004.

E. C. 11-cavallini, M. Aksel, . Aiaa, . Asme, and . Sae, Numerical Simulation of the Grain Burnback in Solid Propellant Rocket Motor Algorithm Study on Burning Surface Calculation of Solid Rocket Motor with Complicated Grain Based on Level Set Methods, Joint Propulsion Conference & Exhibit, pp.10-13, 2005.

S. July, C. , F. Vuillot, Y. Fabignon, J. Dupays et al., Vortex-shedding phenomena in solid rocket motors Instabilities and pressure oscillations in solid rocket motors, 16 N. Lupoglazoff, F. Vuillot, J. Dupays, and Y. Fabignon Numerical simulations of the unsteady flow inside segmented solid-propellant motors with burning aluminum particles, pp.626-639, 2003.

G. Reno, G. Boyer, J. Casalis, F. Estivalèzes, F. Doisneau et al., Stability analysis and numerical simulation of simplified solid rocket motors Eulerian multi-fluid models for the simulation of dynamics and coalescence of particles in solid propellant combustion Finger formation during droplet impact on a liquid film, Comptes Rendus de l'Académie des Sciences Series IIB Mechanics Physics Astronomy, C. W. Hirt, A. A. Amsden, and J. L. Cook. An arbitrary Lagrangian?Eulerian computing method for all flow speeds, pp.839-844, 1997.

P. Covello and G. Rodrigue, A generalized front marching algorithm for the solution of the eikonal equation, Journal of Computational and Applied Mathematics, vol.156, issue.2, pp.371-388, 2003.
DOI : 10.1016/S0377-0427(03)00360-1

S. Osher, J. A. Sethian, J. A. Sethian, S. K. Leung, D. Veerapaneni et al., Level set methods and fast marching methods: evolving interfaces in computational geometry, fluid mechanics, computer vision, and materials science High-frequency Wave Propagation by the Segment Projection Method Big Ray Tracing: Multivalued Travel Time Field Computation Using Viscosity Solutions of the Eikonal Equation A Cell Based Particle Method for Modeling Dynamic Interfaces A boundary integral method for simulating the dynamics of inextensible vesicles suspended in a viscous fluid in 2D Zorin, A numerical method for simulating the dynamics of 3D axisymmetric vesicles suspended in viscous flows, 373?390 26 J.-D. Benamou fast algorithm for simulating vesicle flows in three dimensions Hou, J. S. Lowengrub, and M. J. Shelley Removing the Stiffness from Interfacial Flows with Surface Tension, pp.12-49, 1988.

R. A. Kimmel, B. Courbet, A. Murrone, P. Villedieu, C. Laurent et al., 35 C. Farhat and F. X. Roux, A method of finite element tearing and interconnecting and its parallel solution algorithm F. Alauzet. A changing-topology moving mesh technique for large displacement The CEDRE Software, Proceedings of the 21st International Meshing Roundtable175{200, 2014. 37 Refloch,: Development and Validation of a Multiphysics Computational Software, 1st European Conference for Aerospace Sciences (EUCASS), Paper 2.04.03, pp.17-37, 2004.

J. 39-troyes, I. Dubois, V. Borie, A. Boischot, . Aiaa et al., Multi-Phase Reactive Numerical Simulations of a Model Solid Rocket Motor Exhaust Jet Numerical Simulations of Model Solid Rocket Motor Ignition Overpressure Waves, ASEE Joint Propulsion Conference and Exhibit, 2008.

D. 41-gueyffier, B. Fromentin-denoziere, J. Simon, A. Merlen, and V. Giovangigli, Numerical Simulation of Ionized Rocket Plumes, Journal of Thermophysics and Heat Transfer, vol.28, issue.2, pp.218-225, 2014.
DOI : 10.2514/1.T4239

J. 42-hijlkema, M. Prévost, and G. Casalis, On the importance of reduced scale Ariane 5 P230 solid rocket motor models in the comprehension and prevention of thrust oscillations, CEAS Space Journal, vol.10, issue.10, 2011.
DOI : 10.1007/s12567-011-0008-8

J. 43-dupays, Contribution à l'étude du rôle de la phase condensée dans la stabilité d'un propulseur à propergol solide pour lanceur spatial, 1997.