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Update 2015-07-05
  1. E. Kengne, A. Lakhssassi, and W.M. Liu,  (2015), Dynamics of modulated waves in a lossy modified Noguchi electrical transmission line, PHYSICAL REVIEW E 91, pp. 062915-1-10
  2. E. Kengne and A. Lakhssassi (2015), Analytico-numerical study of bio-heat transfer problems with temperature-dependent perfusion, Eur. Phys. J. Plus 130 (89), 18 p. DOI 10.1140/epjp/i2015-15089-1
  3. E. Kengne and A. Lakhssassi (2015), Analytical study of dynamics of matter-wave solitons in lossless nonlinear discrete bi-inductance transmission lines, PHYSICAL REVIEW E 91, pp. 032907-1-12
  4. E. Kengne and A. Lakhssassi (2015), Impact of Three-Body Interactions and Nonlinear Dispersion on the Dynamics of Bose-Einstein Condensates with Time-Dependent Scattering Length in a Harmonic Potential, Chinese Journal of Physics 53 (1), pp. 214 - 233
  5. E. Kengne and A. Lakhssassi (2015), Analytical studies of soliton pulses along two-dimensional coupled nonlinear transmission lines, Chaos, Solitons & Fractals 73 , pp. 191-201.
  6. E. Kengne and A. Lakhssassi (2014), Propagation of nonlinear waves in bi-inductance nonlinear transmission lines, Eur. Phys. J. B, 87 10 (2014) 237, 10 p.
  7. E. Kengne, I. Mellal, A. Lakhssassi, (2014), Bioheat transfer problems with spatial or transient heating on skin surface or inside biological bodies, The 2014 7th International Conference on BioMedical Engineering and Informatics, Dalian 2014, China, IEEE - EMB, IEEE Catalog Number : CFP14933D-CDR.
  8. E. Kengne, Idir Mellal, Mariem Ben Hamouda, and A. Lakhssassi, (2014), A Mathematical Model to Solve Bio-Heat Transfer Problems through a Bio-Heat Transfer Equation with Quadratic Temperature-Dependent Blood Perfusion under a Constant Spatial Heating on Skin Surface. Journal of Biomedical Science and Engineering, 7, 721-730. doi: 10.4236/jbise.2014.79071.
  9. E. Kengne (2014), Analytical solutions of nonlinear Schrödinger equation with distributed coefficients, Chaos, Solitons & Fractals 61, pp. 56-68.
  10. M. Saydé, A. Lakhssassi, E. Kengne, and R. Palenichka (2013), A spatiotemporal signal processing technique for wafer-scale IC thermomechanical stress monitoring by an infrared camera , AppliedJournal of Biosciences and Medicines,  1 (2), pp. 1-5
  11. E. Kengne, Fathi Ben Hamouda, and A. Lakhssassi, (2013), Extended Generalized Riccati Equation Mapping for Thermal Traveling-Wave Distribution in Biological Tissues through a Bio-Heat Transfer Model with Linear/Quadratic Temperature-Dependent Blood Perfusion, Applied Mathematics,  4, pp. 1471-1484
  12. E. Kengne, M. Saydé, and A. Lakhssassi, (2013), Effect of convective term on temperature distribution in biological tissue, Eur. Phys. J. Plus 128 (98), 10 pp
  13. E. Kengne, A. Lakhssassi, R. Vaillancourt, and W.-M. Liu, (2013), On the propagation of nonlinear signals in nonlinear transmission lines, Eur. Phys. J. Plus 128 (63), 17 pp
  14. E. Kengne, A. Lakhssassi, R. Vaillancourt, and W.-M. Liu, (2013), Exact wave solutions for Bose--Einstein condensates with time-dependent scattering length and spatiotemporal complicated potential, Journal of Mathematical Physics 54, 051501
  15. E. Kengne, A. Lakhssassi, R. Vaillancourt, and W.-M. Liu, (2013), Modulational instability of Bose-Einstein condensate in a complex polynomial in elliptic Jacobian functions potential, Eur. Phys. J. B (2013) 86: 199
  16. E. Kengne, A. Lakhssassi, R. Vaillancourt, and W.-M. Liu, (2013), Phase engineering, modulational instability, and solitons of Gross--Pitaevskii-type equations in 1+1 dimensions, Phys. Rev. E 87, 022914
  17. E. Kengne, A. Lakhssassi, R. Vaillancourt, W.-M. Liu, (2012), Exact solutions for generalized variable-coefficients Ginzburg-Landau equation: Application to Bose-Einstein condensates with multi-body interatomic interactions. Journal of Mathematical Physics 53, 123703
  18. E. Kengne, A. Lakhssassi, R. Vaillancourt, W.-M. Liu, (2012), Monitoring of temperature distribution in living biological tissues via blood perfusion. Eur. Phys. J. Plus 127 (89), 15 pp.
  19. Emmanuel Kengne, Ahmed Lakhssassi, and Rémi Vaillancourt (2012). Temperature Distribution in Living Biological Tissue Simultaneously Subjected to Oscillatory Surface and Spatial Heating: Analytical and Numerical Analysis. International Mathematical Forum, Vol. 7, 2012, no. 48, 2373 - 2392.
  20.  Emmanuel Kengne, Ahmed Lakhssassi, and Rémi Vaillancourt (2012). Temperature Distributions for Regional Hypothermia Based on Nonlinear Bioheat Equation of Pennes Type: Dermis and Subcutaneous Tissues. Applied Mathematics , Vol. 3, 217-224.
  21. Ahmed Lakhssassi, Emmanuel Kengne, and Hicham Semmaoui (2010), Modified pennes' equation modelling bio-heat transfer in living tissues: analytical and numerical analysis, Natural Science 2 (12), pp. 1375-1385
  22. E. Kengne and R. Vaillancourt (2010),  Stability of exact solutions of the cubic-quintic nonlinear Schrödinger equation with periodic potential, Nonlinear Oscillations 13 (4), pp. 533-545
  23. E. Kengne, R. Vaillancourt , and B.A. Malomed (2010), Modulational instability and exact soliton and periodic solutions for two weakly coupled effectively 1D condensates trapped in a double-well potential, Int. J. Mod, Phys. B, 14 (10). pp. 2211-2227 
  24.  Ahmed Lakhssassi, Emmanuel Kengne, and Hicham Semmaoui  (2010), Investigation of nonlinear temperature distribution in biological tissues by using bioheat transfer equation of Pennes type, Natural Science, Vol.2, No.3, 131-138
  25. E. Kengne, A. Lakhssassi, T. Nguyen-Ba, and R. Vaillancourt (2010), Dispersive shock waves propagating in the cubic-quintic derivative NLS equation, Can. J. Phys./Rev. Can. Phys, 88 (1), pp. 55-66. 
  26.  Truong Nguyen-Ba, Vladan Bozic, Emmanuel Kengne, Remi Vaillancourt (2010), One-step 7-stage HermiteBirkhoffTaylor ODE Solver of order 11, Journal of Computational and Applied Mathematics, 234, pp. 192-208. 
  27. E. Kengne and R. Vaillancourt (2009), Modulational stability of solitary states in a lossy nonlinear electrical line, Can. J. Phys./Rev. Can. Phys 87 (11), pp. 1191-1202
  28. Truong Nguyen-Ba, Vladan Bozic, Emmanuel Kengne, Remi Vaillancourt (2009), Nine-stage multi-derivative Runge-Kutta method of order 12, Publication de lInstitut de Mathématiques, Nouvelle serie, tome 86(100), pp. 7596. 
  29. E. Kengne, C. Tadmon, T. Nguyen-Ba, and R. Vaillancourt, (2009), Higher order bright solitons and shock signals in nonlinear transmission lines, Chinese Journal of Physics , 47 (5), pp. 713 - 718
  30. E. Kengne and R. Vaillancourt (2009), Transmission of Solitary Pulse in Dissipative Nonlinear Transmission, Commun Nonlinear Sci Numer Simulat, 14, pp. 38043810. 
  31. E. Kengne and R. Vaillancourt, Exact equilibrium solutions of a diffusion equation with a nonlinear diffusion term by means of Jacobian elliptic functions, Integral Transforms and Special Functions, 20, pp. 701721.
  32. E. Kengne and R. Vaillancourt, (2009), 2D Ginzburg-Landau System of Complex Modulation for Coupled Nonlinear Transmission Lines, J Infrared Milli Terahz Waves, 30, pp. 679699. DOI:10.1007/s10762-009-9485-7.
  33. E. Kengne, R. Vaillancourt, and B.A. Malomed (2009), Coupled nonlinear Schrodinger equations for solitary-wave and kink signals in discrete nonlinear dispersive transmission lines, Int. J. Mod, Phys. B, 23 (2), pp. 133  147. 
  34. E. Kengne. C. Tadmon, and R. Vaillancourt (2009), On the dissipative complex Ginzburg-Landau equation governing the propagation of Solitary Pulse in Dissipative Nonlinear Transmission Lines, Chinese J. Phys. 47(1) pp. 81-92
  35. E. Kengne and R. Vaillancourt (2009), Propagation of solitary waves on lossy nonlinear transmission lines, Int. J. Mod, Phys. B 23 (1), pp.1 - 18
  36. E. Kengne, R. Vaillancourt (2008), Integrability conditions for two-component Bose-Einstein condensates in periodic potentials. Scientific Proceedings of Riga Technical University, Boundary Field Problems and Computer Simulation, 50, pp. 102-111. 
  37. T. Nguyen-Ba, E. Kengne, and R. Vaillancourt (2008): One-Step 4-Stage Hermite-Birkhoff-Taylor ODE Solver of Order 12, Can. Appl. Math. Quarterly, 16(1), pp. 77-94. 
  38. T. Nguyen-Ba, V. Bozic, E. Kengne, and R. Vaillancourt (2009): One-step 9-stage Hermite-Birkhoff-Taylor ODE Solver of order 10, Journal of Applied Mathematics and Computing, 31, pp. 335358 DOI10.1007/s12190-008-0216-3
  39. E. Kengne, R. Vaillancourt, et B.A. Malomed (2008), Bose-Einstein condensates in optical lattices: The cubic-quintic nonlinear Schrodinger equation with a periodic potential, J. Phys. B: Atomic, Molecular & Optical Physics, 41, pp. 205202 (9). 
  40. E. Kengne, V. Bozic, M. Viana, R. Vaillancourt (2008), Transverse stability of solitary waves propagating in coupled nonlinear dispersive transmission lines, Phys. Rev. E, 78, 026603-1 - 8 
  41. E. Kengne, X. X. Liu, B. A. Malomed, S. T. Chui, and W. M. Liu (2008). Explicit solutions to an effective GrossPitaevskii equation: One-dimensional BoseEinstein condensate inspecific traps, J. Maths. Phys. 49, pp. 023503-1 - 023503-19. 
  42. T. Nguyen-Ba, V. Bozic, E. Kengne, and R. Vaillancourt (2007), One-step 4-stage Hermite-Birkhoff-Taylor ODE solver of order 14, Scientific Proceedings of Riga Technical University, Boundary Field Problems and Computer Simulation, 49, pp. 26-41. 
  43. E. Kengne and R. Vaillancourt (2007), Traveling wave propagation on coupled nonlinear transmission lines, Scientific Proceedings of Riga Technical University, Boundary Field Problems and Computer Simulation, 49, pp. 42-56. 
  44. E. Kengne and R. Vaillancourt (2007), Exact solutions of the Gross-Pitaevskii equation in periodic potential in the presence of external source, JMP, 48 (7) pp. 073520-1  1
  45. E. Kengne and S.T. Chui (2007), Exact solutions in one-dimensional Bose-Einstein gas in a time-varying trap potential and atomic scattering length, Int. J. Mod. Phys. B, 7, 1043-1050
  46. E. Kengne, B. Malomed, S. Chui, and W. Liu (2007), Solitary Signals in Electrical Non linear transmission lines, JMP, 48 (1) pp. 013508-1 - 6. 
  47. E. Kengne and R. Vaillancourt (2006), Ginzburg-Landau system of complex modulations for a distributed nonlinear-dissipative transmission line, J. Nonlinear Oscillation. 9 (4), 451-489. 
  48. Kengne E. and Vaillancourt R. (2006): Stabilized soliton in attractive Bose-Einstein condensate in hyperbolic potential, Scientific Proceedings of Riga Technical University, Boundary Field Problems and Computer Simulation, 48, pp. 81-94; CRM-3219. 
  49. Kengne E. and P.K. Talla (2006): Dynamics of bright matter wave solitons in Bose-Einstein condensates in an expulsive parabolic & complex potential, J. Phys. B: At. Mol. Opt. Phys. 39, pp. 3679-3685. 
  50. Kengne E, S.T. Chui, B.A. Malomed, and W.M. Liu (2006), Modulational instability criteria for coupled nonlinear transmission line with dispersive elements, Phys. Rev. E 74, 036614 -1-10. 
  51. Kengne E. (2006), Nonlocal boundary value-problem for partial differential equations with variable coefficients, African Diaspora J. of Mathematics 5 (1), 1-11. 
  52. Kengne E. and Liu W.M. (2006): Exact solutions of the derivative nonlinear Schrödinger equation for a nonlinear transmission line, Phys. Rev. E 73, 026603. 
  53. Kengne E. and Tayou Simo J. (2005), Stabilization of Cauchy problem for integro-differential equations. Ukrainian Mathematical J., vol. 57 (11), 1571-1576. 
  54. Kengne E. and Kum K. Cletus (2005), Modulational instability in nonlinear bi-inductance transmission line, Int. J. Mod. Phys. B 19 (26), pp. 3961-3983. 
  55. Kengne E. 2005, On the proper posedness of two-point boundary value problems for system with pseudo-differential operators, Ukrainian Mathematical J., vol. 57 (8), 1131-1136. 
  56. Kengne E. and Bame N.C. (2005), Dynamics of Modulated Wave Trains in a Discrete Nonlinear Dispersive and Dissipative Bi-inductanceTransmission Line, Physica Scripta 71(4), 423-432. 
  57. Kengne E. and Bame N.C., (2004), Wave modulation in the nonlinear dissipative and dispersive-transmission line, Far East J. of Appl. Math. 16 (2), 213 - 232. 
  58. Kengne E. (2004), Ginzburg-Landau system of complex modulation equations for a nonlinear transmission line, J. Phys. A: Math. Gen. 37, 6053-6066. 
  59. Kengne E. (2004), Asymptotically well-posed boundary value problems (in Russian), Ukrainian Mathematical J. 56 (2), 2004, 169-184. 
  60. Kengne E. (2003), On stability of nonlinear pendulum, J. Nonlinear Oscillations 6 (2), 191-196. 
  61. Kengne E. and Tayou Simo J., (2003): On well-posedness of multi-point integral boundary valued problems in a stripe, Vestnik Kharkovskovo Natsionalnovo Universitieta, Seriya Matematika, Prikladna matematika i mekhanika, 580 (52), 10-14. 
  62. Kengne E. (2003), Modified Ginzburg-Landau equation and Benjamin-Feir instability, J. Nonlinear Oscillations 6 (3), 346-356; Afrika Matematika 15(3), 35 - 47. 
  63. Kengne E. (2002), Well-posed and regular nonlocal boundary-value problems for partial Differential equations, Ukrainian Mathematical J., 54 (8), 1135-1142. 
  64. Kengne E. (2002), Envelope mudulational instability in the nonlinear dissipative transmission line, J. Nonlinear Oscillations, 5 (1), 23-31. 
  65. Kengne E. and Pelap F.B. (2001), Regularity of two-point boundary value problems, Afrika Matematika 3 (12), 61-70. 
  66. Kengne E. (2000), Perturbation of two-point problem (in Russian), Ukrainian Mathematical J. No 7 vol. 52 (7), 1124  1129. 
  67. Kengne E. (1997), On the narrow stripe of the correctness of boundary value problems, Afrika Matematika 3, 35-53. 
  68. Borok V.M. and Kengne E. (1994), Classification of nonlocal boundary value problems in the large stripe (in Russian), Izviestia Vouzov, Matematikha, 5, 3-12 
  69. Borok V.M. and Kengne E. (1994), Classification of nonlocal boundary value problems in a narrow stripe (in Russian), Ukrainian Mathematical J., 46 (4), 38-43. 
  70. Kengne E. (1993), Criteria of the proper solvability of nonlocal boundaqry value problems for the heat equation and Schrödinger equation. (in Russian). Dep. at UkrNITI, 28.10.93, No. 2112-Uk93, 1-14. 
  71. Kengne E. (1992), Criterion of the regularity of boundary value problem with integral in the boundary conditions (in Russian)