CITĂRI
Total: 87 (=65+1+21)
In reviste cotate ISI (subtotal: 65)
M.C. Anisiu
M.-C. Anisiu, V. Anisiu, Z. Kása, On the total palindrome complexity, Discr. Math. 310 (2010), 109-114
Citată în
1. T. I, Sh. Inenaga and M. Takeda, Palindrome pattern matching, Theoretical Computer Science 483 (2013), 162–170 (IF 2012: 0.489)
M.-C. Alicu (Anisiu), Otilia Mark, Some properties of the fixed point set for multifunctions, Studia Univ. Babeş-Bolyai, Math. XXV(4) (1980), 77-79
Citată în
2. H. Afshari, Sh. Rezapour, N. Shahzad, Absolute retractivity of the common fixed points set of two multifunctions, Topological Methods in Nonlinear Analysis 40 (2) (2012), 429-436 (IF 2012: 1.099)
M.-C. Anisiu, A. Pál, Special families of orbits for the Hénon-Heiles type potential, Rom. Astron. J. 9 (2) (1999), 179-185
Citată în
3. D. Carrasco, C. Vidal, Periodic solutions, stability and non-integrability in a generalized Hénon-Heiles Hamiltonian system, Journal of Nonlinear Mathematical Physics 20 (2) (2013), 199-213 (IF 2012: 0.569)
M.-C. Anisiu, Photogravitational models in Celestial Mechanics, Analele Ştiinţifice ale Universităţii “Al. I. Cuza” Iaşi, Matematică XLI (1995), 115-119
Citată în
4. C. Chiruţă, The influence of the radiation pressure in the binary W UMi system, using the Popovici model, Romanian Reports in Physics, 65 (2013), 299-308 (IF 2012: 1.123)
M.-C. Anisiu, On the photogravitational model of C. Popovici, Rom. Astron. J. 5 (1) (1995), 49-54
Citată în
5. C. Chiruţă, The influence of the radiation pressure in the binary W UMi system, using the Popovici model, Romanian Reports in Physics, 65 (2013), 299-308 (IF 2012: 1.123)
M.-C. Anisiu, The photogravitational model of Constantin Popovici in a Manev-type field, Rom. Astron. J. 13(2) (2003), 171-177
Citată în
6. C. Chiruţă, The influence of the radiation pressure in the binary W UMi system, using the Popovici model, Romanian Reports in Physics, 65 (2013), 299-308 (IF 2012: 1.123)
M.-C. Anisiu, An alternative point of view on the equations of the inverse problem of Dynamics, Inverse Problems, 20 (2004), 1865-1872
Citată în
7. W. Sarlet, T. Mestdag, G. Prince, A generalization of Szebehely’s inverse problem of Dynamics, Reports on Mathematical Physics 72 (1) (2013), 65-84 (IF 2012: 0.756)
G. Bozis, M.-C. Anisiu, Families of straight lines in planar potentials, Rom. Astron. J. 11(1)(2001), 27-43
Citată în
8. W. Sarlet, T. Mestdag, G. Prince, A generalization of Szebehely’s inverse problem of Dynamics, Reports on Mathematical Physics 72 (1) (2013), 65-84 (IF 2012: 0.756)
M.-C. Anisiu, Two and three-dimensional inverse problem of dynamics, Studia Univ. “Babes-Bolyai”, Math. XLIX(4) (2004), 13-26
Citată în
9. W. Sarlet, T. Mestdag, G. Prince, A generalization of Szebehely’s inverse problem of Dynamics, Reports on Mathematical Physics 72 (1) (2013), 65-84 (IF 2012: 0.756)
A. Pál, M.-C. Anisiu, On the two-dimensional inverse problem of Dynamics, Astron. Nachr. 317 (3) (1996), 205-209
Citată în
10. W. Sarlet, T. Mestdag, G. Prince, A generalization of Szebehely’s inverse problem of Dynamics, Reports on Mathematical Physics 72 (1) (2013), 65-84 (IF 2012: 0.756)
E. Cătinaş
E. Cătinaş, The inexact, inexact perturbed, and quasi-Newton methods are equivalent models, Math. Comput. 74 (2005) 291–301.
Citată în
11. I.K. Argyros and S. Hilout, On an improved convergence analysis of Newton’s method, Applied Mathematics and Computation 225 (2013) 372–386. IF 2012 1.349
E. Cătinaş, The inexact, inexact perturbed, and quasi-Newton methods are equivalent models, Math. Comput. 74 (2005) 291–301.
Citată în
12. A. Magreñán Ruiz and I.K. Argyros, Two-step Newton methods, J. Complexity, http://dx.doi.org/10.1016/j.jco.2013.10.002 IF 2012 1.1217
E. Cătinaş, Estimating the radius of an attraction ball, Applied Mathematics Letters 22 (5) (2009) 712–714.
Citată în
E. Cătinaş, The inexact, inexact perturbed, and quasi-Newton methods are equivalent models, Math. Comput. 74 (2005) 291–301.
Citată în
14. I.K. Argyros and S. Hilout, Weaker conditions for the convergence of Newton’s method, Journal of Complexity 28 (2012) 364–387. IF 2012 1.1217
E. Cătinaş, On some iterative methods for solving nonlinear equations, Rev.Anal. Numer. Theor. Approx. 23 (1994), 47–53
Citată în
E. Cătinaş, Inexact perturbed Newton methods and application to a class of Krylov solvers, J. Optim. Theory Appl. 108 (2001), 543–571
Citată în
16. M. J. Smietánski, A perturbed version of an inexact generalized Newton
method for solving nonsmooth equations, Numer Algor 63 (2013) , 89–106 IF 2012 1.128
E. Cătinaş, The inexact, inexact perturbed and quasi-Newton methods are equivalent models, Math. Comput. 74 (2004), 291–301
Citată în
17. M. J. Smietánski, A perturbed version of an inexact generalized Newton
method for solving nonsmooth equations, Numer Algor 63 (2013) , 89–106 IF 2012 1.128
E. Cătinaş, The inexact, inexact perturbed and quasi-Newton methods are equivalent models, Math. Comput. 74 (2004), 291–301
Citată în
E. Cătinaş, On some iterative methods for solving nonlinear equations, Rev Anal Numer Theor Approx, 23 (1994) 47-53
citată în
E. Cătinaş, On some iterative methods for solving nonlinear equations, Rev Anal Numer Theor Approx, 23 (1994) 47-53
citată în
20. M.H. Rashid, J. H. Wang, and C. Li, Convergence analysis of a method for variational inclusions, Applicable Analysis, 91 (2012) no. 10, 1943-1956, IF 2012: 0.71
I Păvăloiu and E. Cătinaş, Remarks on some Newton and Chebyshev-type methods for approximation eigenvalues eigenvectors of matrices, Computer Science J. of Moldova, 1999
Citată în
I Păvăloiu and E. Cătinaş, Remarks on some Newton and Chebyshev-type methods for approximation eigenvalues eigenvectors of matrices, Computer Science J. of Moldova, 1999
Citată în
22. F. Soleymani, A new high-order stable numerical method for matrix inversion, The Scientific World Journal, Hindawi, 2013, IF 2012: 1.730
E. Cătinaş, The inexact, inexact perturbed and quasi-Newton methods are equivalent models, Math. Comput. 74 (2004), 291–301
Citată în
23. I.K. Argyros, S. Hilout, Extending the applicability of Newton’s method using nondiscrete induction, Czechoslovak Mathematical Journal, 63 (2013) no. 1, 115-141, IF 2012: 0.300
M. Crăciun
–
C.I. Gheorghiu
C.I. Gheorghiu, F. Dragomirescu, Spectral methods in linear stability. Applications in thermal convection with variable gravity field, Applied Numerical Mathematics, 59(2009) 1290-1302,
Citată în:
24. M. Möller, B. Zinsou, Sixth Order Differential Operators With Eigenvalue Dependent Boundary Conditions, Appl. Anal. Discrete Math. (AADM) DOI: 10.2298/AADM130608010M IF 2012: 0.754
şi
25. E. H. Doha, W. M. Abd-Elhameed, A. H. Bhrawy, New spectral-Galerkin algorithms for direct solution of high even-order differential equations using symmetric generalized Jacobi polynomials, Collect. Math. (2013) 64:373–394 DOI 10.1007/s13348-012-0067-y IF 2012: 0.786
C. I. Gheorghiu, Spectral Methods for Differential Problems, Casa Cartii de Stiinta, Cluj-Napoca, 2007,
Citată în:
26. A. H. Bhrawy and M. A. Alghamdi , Approximate Solutions of Fisher’s Type Equations with Variable Coefficients, , Hindawi Publishing Corporation, Abstract and Applied Analysis Volume 2013, Article ID 176730, 10 pages http://dx.doi.org/10.1155/2013/176730, IF 2012: 1.102
şi
27. A. H. Bhrawy, L. M. Assas, and M. A. Alghamdi, Fast Spectral Collocation Method for Solving Nonlinear Time-Delayed Burgers-Type Equations with Positive Power Terms, Hindawi Publishing Corporation, Abstract and Applied Analysis, Vol. 2013, Article ID 741278, 12 pages http://dx.doi.org/10.1155/2013/741278, IF 2012: 1.102
şi
28. E. H. Doha · W. M. Abd-Elhameed · A. H. Bhrawy, New spectral-Galerkin algorithms for direct solution of high even-order differential equations using symmetric generalized Jacobi polynomials, Collect. Math. (2013) 64:373–394 DOI 10.1007/s13348-012-0067-y, IF 2012: 0.786
şi
29. E. H. Doha, W. M. Abd-Elhameed, M. A. Bassuony, Two Legendre-Dual-Petrov-Galerkin Algorithms for Solving the Integrated Forms of High Odd-Order Boundary Value Problems, The Scientific World Journal, Nov. 20, 2013 IF 2012: 1.730
F.-I. Dragomirescu, C.I. Gheorghiu, Analytical and numerical solutions to an electrohydrodynamic stability problem, Appl. Math. Comput. 216(2010)3718-3727,
Citată în:
30. M. Sebawe Abdalla, H. Eleuch, T. Barakat, Exact Analytical Solutions of the Wave Function for Some q-Deformed Potentials, Reports on Mathematical Physics, 71(2013) 217–229, IF 2012: 0.627
şi
31. B. Straughan, A. J. Harfash, Instability in Poiseuille flow in a porous medium with slip boundary conditions, Microfluid Nanofluid (2013) 15:109–115, IF 2012: 3.371
C.I.Gheorghiu, M. E. Hochstenbach, B. Plestenjak, J. Rommes, Spectral collocation solutions to multiparameter Mathieu’s system, Appl. Math. Comput. 218 (2012), 11990-12000,
Citată în:
32. M. Sebawe Abdalla, H. Eleuch, T. Barakat, Exact Analytical Solutions of the Wave Function for Some q-Deformed Potentials, Reports on Mathematical Physics, 71(2013) 217–229, IF 2012: 0.627
Gheorghiu, C.I., Rommes J., Application of the Jacobi-Davidson method to accurate analysis of singular linear hydrodynamic stability problems, Int. J. Numer. Meth. Fluids 71, 358-369 (2013)
Citată în:
33. B. Straughan, A. J. Harfash, Instability in Poiseuille flow in a porous medium with slip
boundary conditions, Microfluid Nanofluid (2013) 15:109–115 IF 2012: 3.371
C. Mustăţa
–
D. Otrocol
D. Otrocol, I.A. Rus, Functional-differential equations with maxima of mixed type, FIXED POINT THEORY, 9(2008), No. 1, 207-220
Citată în
I.A. Rus, M.A. Serban, Basic problems of the metric fixed point theory and the relevance of a metric fixed point theorem, Carpathian Journal of Mathematics, 29 (2013) no. 2, 239-258
(autocitare?)
F. Pătrulescu
–
I Păvăloiu
I. Păvăloiu, Introduction in the Theory of Approximation of Equations Solutions Published: 1976, Cluj-Napoca, Ed. Dacia.
Citată în:
34. I.K. Argyros, S. Hilout, Extending the applicability of Newton’s method using nondiscrete induction, Czechoslovak Mathematical Journal, 63 (2013) no. 1, 115-141, IF 2012: 0.30
şi
35. I.K. Argyros, S. Hilout, Estimating upper bounds on the limit points of majorizing sequences for Newton’s method, Numerical Algorithms, 62 (2013) no.1, 115-132, IF 2012: 1.128
I. Păvăloiu, Sur une généralisation de la méthode de Steffensen, Revue d’Analyse Numérique et de Théorie de l’Approximation 21(1), 59–65 (1992)
Citată în:
36. Sanjay K. Khattri ·Trond Steihaug, Algorithm for forming derivative-free optimal methods, Numerical Algorithms, DOI 10.1007/s11075-013-9715-x, IF 2012: 1.128
I. Păvăloiu, E Cătinaş, [PDF] Remarks on some Newton and Chebyshev-type methods for approximation eigenvalues and eigenvectors of matrices, Computer Science, 1999
Citată în:
F. Soleymani, A fast convergent iterative solver for approximate inverse of matrices, Numerical Linear Algebra with Applications, DOI: 10.1002/nla.1890, IF 2012: 1.202 (apare şi la Cătinaş)
şi
37. F Soleymani, A new high-order stable numerical method for matrix inversion, – The Scientific World Journal, IF 1.730, http://www.hindawi.com/journals/tswj/aip/830564/
I. Păvăloiu, Bilateral Approximations of Solutions of Equations by Order Three
Steffensen-Type Methods , Stud Univ. Babes Bolyai, 51, 105-114, 2006
Citată în:
38. Soleymani, Fazlollah; Mousavi, B. S.,On Novel Classes of Iterative Methods for Solving Nonlinear Equations, Computational Mathematics and Mathematical Physics, 52, No. 2, 203-210 Published: FEB 2012 , IF 2012: 0.408
şi
39. Soleymani, Fazlollah; Soleimani, Farahnaz, Novel Computational Derivative-Free Methods for Simple Roots, Fixed Point Theory, 13, No. 1, 247-258 Published: 2012 , IF 2012: 0.779
S. Şoltuz
S.M. Soltuz, Grosan, Teodor, Data dependence for Ishikawa iteration when dealing with contractive-like operators, Fixed Point Theory and Applications, Article Number: 242916 DOI: 10.1155/2008/242916, Published: 2008, IF 2012 1.87
Citată în:
40. Karakaya, Vatan, Gursoy, Faik; Dogan, Kadri; et al., Data Dependence Results for Multistep and CR Iterative Schemes in the Class of Contractive-Like Operators, Abstract and Applied Analysis, Article Number: 381980 DOI: 10.1155/2013/381980, Published: 2013. IF 2012 1.102
şi
41. Gursoy, Faik, Karakaya, Vatan; Rhoades, Billy E., Data dependence results of new multi-step and S-iterative schemes for contractive-like operators, Fixed Point Theory and Applications, Article Number: 76, DOI: 10.1186/1687-1812-2013-76, Published: 2013, IF 2012 1.87
Rhoades, BE, Soltuz, SM., The equivalence between Mann-Ishikawa iterations and multistep iteration, Nonlinear Analysis-Theory Methods & Applications, 58, No. 1-2, 219-228 DOI: 10.1016/j.na.2003.11.013, Published: Jul 2004, IF 2012 1.640
Citată în:
42. Kang, Shin Min; Ciric, Ljubomir B.; Rafiq, Arif; et al.,Faster Multistep Iterations for the Approximation of Fixed Points Applied to Zamfirescu Operators, Abstract and Applied Analysis, Article Number: 464593 DOI: 10.1155/2013/464593, Published: 2013, IF 2012 1.102
şi
43. Karakaya, Vatan; Gursoy, Faik; Dogan, Kadri; et al., Data Dependence Results for Multistep and CR Iterative Schemes in the Class of Contractive-Like Operators, Abstract and Applied Analysis, Article Number: 381980 DOI: 10.1155/2013/381980, Published: 2013, IF 2012 1.102
şi
44. Gursoy, Faik; Karakaya, Vatan; Rhoades, Billy E., Data dependence results of new multi-step and S-iterative schemes for contractive-like operators, Fixed Point Theory and Applications, Article Number: 76, DOI: 10.1186/1687-1812-2013-76, Published: 2013, IF 2012 1.87
BE Rhoades, SM Soltuz, The equivalence between the convergences of Ishikawa and Mann iterations for an asymptotically pseudocontractive map, Journal of Mathematical Analysis and Applications, 283, No. 2 , 681-688 DOI: 10.1016/S0022-247X(03)00338-X, Published: Jul. 15, 2003, IF 2012 1.050
Citată în:
45. Xue, Zhiqun; Lv, Guiwen, The convergence of the modified Mann and Ishikawa iterations in Banach spaces, Journal of Inequalities and Applications, Article Number: 188 DOI: 10.1186/1029-242X-2013-188, Published: 2013, IF 2012 0.822
şi
46. Sun, Haizhen; Xue, Zhiqun, Reconsiderations on the Equivalence of Convergence between Mann and Ishikawa Iterations for Asymptotically Pseudocontractive Mappings, Journal of Applied Mathematics, Article Number: 274931 DOI: 10.1155/2013/274931, Published: 2013, IF 2012 0.834
S. M. Soltuz, Data dependence for Ishikawa iteration, Lecturas Matemáticas, vol. 25, no. 2, pp. 149–155, 2004.
Citată în:
47. Karakaya, Vatan; Gursoy, Faik; Dogan, Kadri; et al., Data Dependence Results for Multistep and CR Iterative Schemes in the Class of Contractive-Like Operators, Abstract and Applied Analysis, Article Number: 381980 DOI: 10.1155/2013/381980, Published: 2013, IF 2012 1.102
şi
48. Gursoy, Faik; Karakaya, Vatan; Rhoades, Billy, E Data dependence results of new multi-step and S-iterative schemes for contractive-like operators, Fixed Point Theory and Applications, Article Number: 76 DOI: 10.1186/1687-1812-2013-76, Published: 2013, IF 2012 1.87
S. M. Soltuz, Data dependence for Mann iteration, Octogon Mathematical Magazine, vol. 9, pp. 825–828, 2001.
Citată în:
49. Karakaya, Vatan; Gursoy, Faik; Dogan, Kadri; et al., Data Dependence Results for Multistep and CR Iterative Schemes in the Class of Contractive-Like Operators, Abstract and Applied Analysis, Article Number: 381980 DOI: 10.1155/2013/381980, Published: 2013, IF 2012 1.102
S. M. Soltuz, The equivalence between Krasnoselskij, Mann, Ishikawa, Noor and multistep iterations, Mathematical Communications, 12, no. 1, pp. 53–61, 2007
Citată în:
50. Karakaya, Vatan; Gursoy, Faik; Dogan, Kadri; et al., Data Dependence Results for Multistep and CR Iterative Schemes in the Class of Contractive-Like Operators, Abstract and Applied Analysis, Article Number: 381980 DOI: 10.1155/2013/381980, Published: 2013, IF 2012 1.102
S. M. Soltuz, The backward Mann iteration, Octogon Mathematical Magazine, vol. 9, pp. 797–800, 2001.
Citată în:
51. Tian, Ming; Jin, Xin, Implicit Iterative Scheme for a Countable Family of Nonexpansive Mappings in 2-Uniformly Smooth Banach Spaces, Abstract and Applied Analysis, Article Number: 264910 DOI: 10.1155/2013/264910, Published: 2013, IF 2012 1.102
S. M. Soltuz, Data dependence for Mann iteration, Octogon Mathematical Magazine, vol. 9, pp. 825–828, 2001.
Citată în:
52. Gursoy, Faik; Karakaya, Vatan; Rhoades, Billy E., Data Dependence Results Of New Multi-Step And S-Iterative Schemes For Contractive-Like Operators, Fixed Point Theory and Applications, Article Number: 76 DOI: 10.1186/1687-1812-2013-76, Published: 2013, IF 2012 1.87
S.M. Soltuz, Sequences supplied by inequalities and applications, Revue d’Analyse Numerique et de Theorie de l’Approximation, 29, No. 2, 207-212, 2001.
Citată în:
53. Gursoy, Faik; Karakaya, Vatan; Rhoades, Billy E., Data dependence results of new multi-step and S-iterative schemes for contractive-like operators, Fixed Point Theory and Applications, Article Number: 76 DOI: 10.1186/1687-1812-2013-76, 2013, IF 2012 1.87
N. Suciu
Suciu N., F. A. Radu, A. Prechtel, F. Brunner, and P. Knabner, A coupled finite element – global random walk approach to advection-dominated transport in porous media with random hydraulic conductivity, J. Comput. Appl. Math., 246, 27-37, doi:10.1016/j.cam.2012.06.027, 2013,
citat in:
54. Ray, N, van T. Noorden, R. Frank, P. Knabner, Transport In Porous Media, 95(3), 669-696, doi:10.1007/s11242-012-0068-z, 2012, Impact Factor: 1.551 (articol aparut in decembrie 2012; citatia a aparut in iulie 2013, dupa ce a apurut si articolul citat in ISI, deci n-a mai fost raportata).
Suciu, N., Vamos, C., Vanderborght, J., Hardelauf, H., Vereecken, H.: Numerical investigations on ergodicity of solute transport in heterogeneous aquifers. Water Resour. Res. 42, W04409, doi:10.1029/2005WR004546, 2006,
citat in:
55. Dentz, M., and F. P. J. de Barros, Dispersion variance for transport in heterogeneous porous media, Water Resour. Res. 49(6), 3443-3461, doi: 10.1002/wrcr.20288, 2013, Impact Factor: 3.149.
Suciu, N., C. Vamos, H. Vereecken, K. Sabelfeld, and P. Knabner, Memory effects induced by dependence on initial conditions and ergodicity of transport in heterogeneous media, Water Resour. Res. 44, W08501, doi:10.1029/2007WR006740, 2008,
citat in:
56. Dentz, M., and F. P. J. de Barros, Dispersion variance for transport in heterogeneous porous media, Water Resour. Res. 49(6), 3443-3461, doi: 10.1002/wrcr.20288, 2013, Impact Factor: 3.149.
Suciu, N., C. Vamoş, F. A. Radu, H. Vereecken, and P. Knabner, Persistent memory of diffusing particles, Physical Review E , 80, 061134, doi:10.1103/PhysRevE.80.061134, 2009,
citat in:
57. Dentz, M., and F. P. J. de Barros, Dispersion variance for transport in heterogeneous porous media, Water Resour. Res. 49(6), 3443-3461, doi: 10.1002/wrcr.20288, 2013, Impact Factor: 3.149.
Eberhard, J., N. Suciu, and, C. Vamoş, On the self-averaging of dispersion for transport in quasi-periodic random media, J. Phys. A: Math. Theor., 40, 597-610, doi:10.1088/1751-8113/40/4/002, 2007,
citat in:
58. Dentz, M., and F. P. J. de Barros, Dispersion variance for transport in heterogeneous porous media, Water Resour. Res. 49(6), 3443-3461, doi: 10.1002/wrcr.20288, Impact Factor: 3.149.
F. A. Radu, N. Suciu, J. Hoffmann, A. Vogel, O. Kolditz, C-H. Park, and S. Attinger, Accuracy of numerical simulations of contaminant transport in heterogeneous aquifers: A comparative study, Adv. Water Resour., 34, 4761, 2011, doi:10.1016/j.advwatres.2010.09.012,
citat în:
59. Zhu, Y., L. Shi, J. Yang, J. Wu, and D. Mao, Coupling methodology and application of a fully integrated model for contaminant transport in the subsurface system , Journal of Hydrology, 501, 56-72, doi:10.1016/j.jhydrol.2013.07.038, 2013, Impact Factor: 2.964.
şi
60. Bause, M,. and K. Schwegler, Higher order finite element approximation of systems of convection-diffusion-reaction equations with small diffusion, J. Comput. Appl. Math., 246, 52-64, doi:10.1016/j.cam.2012.06.027, 2013, Impact Factor: 0.989.
şi
61. Sun, HG., W. Chen, Wen, and K.Y. Sze, A semi-discrete finite element method for a class of time-fractional diffusion equations, Philosophical Transactions of the Royal Society A-Mathematical Physical and Engineering Sciences, 371, 20120268, doi:10.1098/rsta.2012.0268, 2013, Impact Factor: 2.891.
Suciu, N., Spatially inhomogeneous transition probabilities as memory effects for diffusion in statistically homogeneous random velocity fields, Physical Review E, 81, 056301, doi:10.1103/PhysRevE.81.056301, 2010,
citat in:
62. Kurbanmuradov, O. K. Sabelfeld, and P. Kramer, Randomized Spectral and Fourier-Wavelet Methods for multidimensional Gaussian random vector fields, Journal of Computational Physics, 245, 218-234, doi:10.1016/j.jcp.2013.03.021, 2013, Impact Factor: 2.138.
Suciu, N., C. Vamoş, and K. Sabelfeld, Ergodic simulations of diffusion in random velocity fields, pp. 659-668 in Monte Carlo and Quasi-Monte Carlo Methods 2006, Ed. A. Keller, S. Heinrich, and H. Niederreiter, Springer Verlag, Heidelberg, doi:10.1007/978-3-540-74496-2_40, 2008,
citat in:
63. Kurbanmuradov, O. K. Sabelfeld, and P. Kramer, Randomized Spectral and Fourier-Wavelet Methods for multidimensional Gaussian random vector fields, Journal of Computational Physics, 245, 218-234, doi:10.1016/j.jcp.2013.03.021, 2013, Impact Factor: 2.138.
Vamoş, C., N. Suciu and W. Blaj, Derivation of one-dimensional hydrodynamic model for stock price evolution, Physica A, 287, 461-467, doi:10.1016/S0378-4371(00)00385-X, 2000.
citată în
Parisi, D. R., D. Sornette, and D. Helbing, Financial price dynamics and pedestrian counterflows: A comparison of statistical stylized facts, Physical Review E, 87, 012804, doi:10.1103/PhysRevE.87.012804, 2013, Impact Factor: 2.313. (contorizată la Vamoş)
Vamoş, C., and N. Suciu, Seismic hemispheric asymmetry induced by Earth’s inner core decentering, arXiv:1111.1121v1, 2011, 2011,
citat in
Fang, M., H.H. Bradford, and K. Weijia, Degree one loading by pressure variations at the CMB, Journal of Earth Science, 24(5), 736-749, doi:10.1007/s12583-013-0367-5, Impact Factor: 0.395. (contorizată la Vamoş)
C. Vamoş
A. Pop, C. Vamos, Biperiodic orbital period modulation of the W UMa binary system CK Bootis, New Astronomy, 17, No.7, pp. 667-672, DOI: 10.1016/j.newast.2012.04.003, Published: oct. 2012
Citată în:
64. K. Tran, A. Levine, S. Rappaport, et al.,The anticorrelated nature of the primary and secondary eclipse timing variations for the Kepler contact binaries, Astrophysical Journal, 774 No. 1, Article Number: 81, DOI: 10.1088/0004-637X/774/1/81, Published: Sep. 1, 2013 , IF 2012: 6.733
şi
65. T. Borkovits, A. Derekas, L.L. Kiss, et al., Dynamical masses, absolute radii and 3D orbits of the triply eclipsing star HD 181068 from Kepler photometry, Monthly Notices of the Royal Astronomical Society, 428, No. 2, pp. 1656-1672, DOI: 10.1093/mnras/sts146, Published: ian. 2013, IF 2012: 4.9
N. Suciu, C. Vamos, F.A. Radu, et al.,Persistent memory of diffusing particles, Physical Review E, 80, No. 6, article number: 061134, DOI: 10.1103/PhysRevE.80.061134, Part: 1, Published: Dec. 2009
citată în:
M. Dentz, F.P.J. de Barros, Dispersion variance for transport in heterogeneous porous media, Water Resources Research, 49, No. 6, pp: 3443-3461, DOI: 10.1002/wrcr.20288, Published: iun. 2013, IF 2012: 3.149 (contorizată la Suciu)
N. Suciu, C. Vamos, H. Vereecken, et al, Memory effects induced by dependence on initial conditions and ergodicity of transport in heterogeneous media, Water Resources Research, 44, No. 8 article number: W08501 DOI: 10.1029/2007WR006740, Published: aug. 9, 2008.
Citată în:
M. Dentz, Marco; F.P.J.de Barros, Dispersion variance for transport in heterogeneous porous media, Water Resources Research, 49, No. 6, pp: 3443-3461, DOI: 10.1002/wrcr.20288, Published: iun. 2013, IF 2012: 3.149 (contorizată la Suciu)
J.P. Eberhard, N. Suciu, C. Vamos, On the self-averaging of dispersion for transport in quasi-periodic random media, Journal of Physics A-Mathematical and Theoretical, 40, No. 4, pp: 597-610, DOI: 10.1088/1751-8113/40/4/002, Published: ian. 26, 2007
citată în:
M. Dentz, F.P.J.de Barros, Dispersion variance for transport in heterogeneous porous media, Water Resources Research, 49, No. 6, pp: 3443-3461, DOI: 10.1002/wrcr.20288, Published: iun. 2013, IF 2012: 3.149 (contorizată la Suciu)
N. Suciu, C. Vamos, J. Vanderborght, J, Numerical investigations on ergodicity of solute transport in heterogeneous aquifers, Water Resources Research, 42, No. 4, article number: W04409, DOI: 10.1029/2005WR004546, Published: apr .18, 2006,
citată în:
M. Dentz, F.P.J. de Barros, Dispersion variance for transport in heterogeneous porous media, Water Resources Research, 49, No. 6, pp: 3443-3461, DOI: 10.1002/wrcr.20288, Published: iun. 2013, IF 2012: 3.149 (contorizată la Suciu)
Citări în jurnale indexate ISI, sau în cărţi publicate în edituri consacrate
Subtotal: 1
E. Cătinaş, On some iterative methods for solving nonlinear equations, Rev Anal Numer Theor Approx, 23 (1994) 47-53
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1. C. Cabuzel, A. Pietrus, Some Results on Subanalytic Variational Inclusions, Handbook of Optimization, Intelligent Systems Reference Library Volume 38, 2013, pp 51-72 Springer-Verlag
Citări în jurnale neindexate ISI
Subtotal: 21
M.-C. Anisiu, A. Pál, Two-dimensional inverse problem of dynamics for families in parametric form, Inverse Problems 15 (1999), 135-140.
Citată în:
1. E. E. Zotos, Using new dynamical indicators to distinguish between order and chaos in a galactic potential producing exact periodic orbits and chaotic components, Astronomical and Astrophysical Transactions 27 (4) (2012), 635-654.
M.-C. Anisiu, The energy-free equations of the 3D inverse problem of dynamics, Inverse Probl. Sci. Eng. 13 (2005), 545-558.
Citată în:
2. E. E. Zotos, Using new dynamical indicators to distinguish between order and chaos in a galactic potential producing exact periodic orbits and chaotic components, Astronomical and Astrophysical Transactions 27 (4) (2012), 635-654.
M.-C. Anisiu, G. Bozis, Families of orbits in planar anisotropic fields, Astron. Nachr. 326 (1) (2005), 75-78.
Citată în:
3. E. E. Zotos, Using new dynamical indicators to distinguish between order and chaos in a galactic potential producing exact periodic orbits and chaotic components, Astronomical and Astrophysical Transactions 27 (4) (2012), 635-654.
M.-C. Anisiu, Th. Kotoulas, Construction of 3D potentials from a pre-assigned two-parametric family of orbits, Inverse Problems 22 (2006), 2255-2269.
Citată în:
4. E. E. Zotos, Using new dynamical indicators to distinguish between order and chaos in a galactic potential producing exact periodic orbits and chaotic components, Astronomical and Astrophysical Transactions 27 (4) (2012), 635-654.
M.-C. Anisiu, V. Anisiu, Z. Kása, On the total palindrome complexity, Discr. Math. 310 (2010), 109-114
Citată în:
5. A. Iványi, Z. Kása, Prism complexity of matrices, Ann. Univ. Sci. Budapest, Sect. Comp. 39 (2013), 181-202.
M.-C. Anisiu, Z. Blázsik, Z. Kása, Maximal complexity of finite words, Pu. M. A. 13(1-2) (2002), 39-48.
Citată în:
6. A. Iványi, Z. Kása, Prism complexity of matrices, Ann. Univ. Sci. Budapest, Sect. Comp. 39 (2013), 181-202.
M.-C. Anisiu, J. Cassaigne, Properties of the complexity function for finite words, Rev. Anal. Numer. Theor. Approx. 33 (2) (2004), 123-139.
Citată în:
7. A. Iványi, Z. Kása, Prism complexity of matrices, Ann. Univ. Sci. Budapest, Sect. Comp. 39 (2013), 181-202.
şi
8. H. Vogel, On the shape of subwords complexity sequences of finite words, arXiv:1309.3441, 2013
M.-C. Anisiu, A. Ivànyi, Two-dimensional arrays with maximal complexity, Pu. M. A. 17 (2006), 197-204.
Citată în:
9. A. Iványi, Z. Kása, Prism complexity of matrices, Ann. Univ. Sci. Budapest, Sect. Comp. 39 (2013), 181-202.
M.-C. Anisiu, Z. Kása, Ch. 26 Complexity of words, in Algorithms of Informatics, Vol.3 (electronic book, ed. A. Iványi), AnTonCom, Budapest, 2011, 1259-1334.
Citată în:
10. A. Iványi, Z. Kása, Prism complexity of matrices, Ann. Univ. Sci. Budapest, Sect. Comp. 39 (2013), 181-202.
M.-C. Anisiu, A. Pál, Special families of orbits for the Hénon-Heiles type potential, Rom. Astron. J. 9 (2) (1999), 179-185.
Citată în:
11. I. M. Echi, A. N. Amah, E. Anthony, Regular and chaotic motions in Hénon–Heiles like Hamiltonian, Turk. J. Phys. 2013, 1-7 (doi: 10.3906/fiz-1208-5).
E. Cătinaş, On some iterative methods for solving nonlinear equations, Rev Anal Numer Theor Approx, 23 (1994) 47-53
citată în
E. Cătinaş, The inexact, inexact perturbed and quasi-Newton methods are equivalent models, Math. Comput. 74 (2004), 291–301
citată în
E. Cătinaş, The inexact, inexact perturbed and quasi-Newton methods are equivalent models, Math. Comput. 74 (2004), 291–301
citată în
C.I. Gheorghiu, F. Dragomirescu, Spectral methods in linear stability. Applications in thermal convection with variable gravity field, Applied Numerical Mathematics, 59(2009) 1290-1302,
Citată în:
15. T Sengul, J Shen, S Wang, Pattern Formations of 2D Rayleigh-Benard Convection with No-Slip Boundary Conditions for the Velocity at the Critical Length Scales, – arXiv preprint arXiv:1302.3625, 2013 – arxiv.org
V. Ilea, D. Otrocol, On a D.V. Ionescu’s problem for functional differential equations, Fixed Point Theory, 10(2009), No. 1, 125-140.
Citată în:
16. M.A. Serban, Fiber Contraction Principle with respect to an Iterative Algorithm, Journal of Operators, Volume 2013 (2013), Article ID 408791, 6 pages
I. Păvăloiu, A convergence theorem concerning the method of Chord, Rev. Anal. Numer. Theor. Approx., 21 1, pp. 59-65, (1972).
Citată în:
17. IK Argyros, SK Khattri Proyecciones (Antofagasta), 2013 – SciELO Chile, A new convergence analysis for the two-step Newton method of order three
I Păvăloiu, E Cătinaş, Remarks on some Newton and Chebyshev-type methods for approximation eigenvalues and eigenvectors of matrices, Computer Science, 1999
Citată în:
18. Fazlollah Soleymani, On a fast Iterative Method for Approximate Inverse of Matrices, Commun. Korean Math. Soc. 28 (2013), No. 2, pp. 407–418, http://dx.doi.org/10.4134/CKMS.2013.28.2.407
Suciu N., F. A. Radu, A. Prechtel, F. Brunner, and P. Knabner, A coupled finite element – global random walk approach to advection-dominated transport in porous media with random hydraulic conductivity, J. Comput. Appl. Math., 246, 27-37, doi:10.1016/j.cam.2012.06.027, 2013,
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19. Quanji Cai, Sheema Kooshapur, Michael Manhart, Ralf-Peter Mundani, Ernst Rank, Andreas Springer, and Boris Vexler, Numerical Simulation of Transport in Porous Media: Some Problems from Micro to Macro Scale, in Lecture Notes in Computational Science and Engineering Volume 93, 2013, pp 57-80, ISSN: 1439-7358 (Print).
Radu, F. A., A. Muntean, I. S. Pop, N. Suciu, and O. Kolditz, A mixed finite element discretization scheme for a concrete carbonation model with concentration-dependent porosity, J. Comput. Appl. Math., 246, 74-85, 2013,
citat in:
20. Ray, N., T. van Noorden, F.A. Radu, W. Friess, and P. Knabner, Drug release from collagen matrices including an evolving microstructure, ZAMM. Z. Angew. Math. Mech., 93(10-11), 811–822, 2013, doi:10.1002/zamm.201200196
Suciu, N., and A Georgescu, On the Misra-Prigogine-Courbage theory of irreversibility, Mathematica (Rom. Acad. Publ. House) 44 (67), 2, 215-231, 2002,
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21. Balogh, V., Einheitliche nicht-mechanistische Darstellung der physikalischen isziplinen als mathematische Systemtheorie, dizertatie de doctorat, Universität der Bundeswehr München, sustinuta la 23.04.2013 (http://athene.bibl.unibw-muenchen.de:8081/doc/90767/90767.pdf).