Publikacije

Spisak objavljenih radova / List of published papers

Boldirani brojevi ukazuju na radove objavljene u časopisima sa Thomson-Reuters SCI lista
Boldfaced numbers point to the papers published in the journals from Thomson-Reuters SCI lists

Broj SCI radova 150, broj WOS-citata 1100, Hiršov faktor h=19
Number of SCI papers 150, WOS citation 1100, Hirsch factor h=19

  1. M. S. Petković, Prony’s exponential interpolation (in Serbian). Master Thesis. University of Niš, Niš 1977.
  2. M. S. Petković, L. D. Petković, On a two-sided approximation for solving equations. Informatica 79, Bled1979, 3(206).
  3. M. S. Petković, On a third order method for solving equations with automatic errorbounds. Informatica 79, Bled 1979, 3(308).
  4. M. S. Petković, Some interval methods of the second order for the simultaneous approximation of polynomial roots. Univ. Beograd. Publ. Elektrotehn. Fak. Ser. Mat. Fiz. No 634-No 677 (1979), 74-81.
  5. M. S. Petković, On an iterative method for the simultaneous determination of two adjacent roots of equations f(x) = 0. Univ. Beograd. Publ. Elektrotehn. Fak. Ser. Mat. Fiz. No 634-No 677 (1979), 82-88.
  6. M. S. Petković, On representation of changeable quantities by the probable intervals. Proc. IV Simposium on Informatics, Jahorina 1980, Ref. 414.
  7. M. S. Petković, On the generalization of some algorithms for the simultaneous approximation of polynomial roots. in: Interval Mathematics (ed. K. Nickel). Academic Press, New York 1980, 461-471.
  8. M. S. Petković, L. D. Petković, On a representation of the k-th root in complex circular interval arithmetic. in: Interval Mathematics (ed. K. Nickel). Academic Press, New York 1980, 473-479.
  9. M. S. Petković, Some iterative interval methods for solving equations (Serbo-Croation). Ph. D. Dissertation, University of Niš, Niš 1980.
  10. M. S. Petković, L. D. Petković, On a method of two-sided approaching for solving equations. Freiburger Intervall-Berichte 10(1980), 1-10.
  11. M. S. Petković, A representation of random variables by the probable intervals. Freiburger Intervall-Berichte 10(1980), 11-20.
  12. G.V. Milovanović, M. S. Petković, On some modifications of the third order for solving equations. Univ. Beograd. Publ. Elektrotehn. Fak. Ser. Mat. Fiz. No 678-No 715 (1980), 63-67.
  13. M. S. Petković, On an interval Newton’s method derived from exponential curve fitting. Z. Angew. Math. Mech. 61 (1981), 117-119.
  14. M. S. Petković, On a generalization of the root iterations for polynomial complex zeros in circular interval arithmetic. Computing 27 (1981), 37-55.
  15. M. S. Petković, A note on Moore’s method. Freiburger Intervall-Berichte 8(1981), 31-35.
  16. L. D. Petković, Ž.M. Mitrović, M. S. Petković, Contribution of Petrović to development of interval arithmetic. Freiburger Intervall-Berichte 8(1981),37-42.
  17. L. D. Petković, M. S. Petković, The representation of complex circular functions using Taylor series. Z. Angew. Math. Mech. 61 (1981), 661-662.
  18. M. S. Petković, L. D. Petković, Programme implementation of library functions in triplex-arithmetic (in Serbian). Proc. IV Simposium on Informatics, Jahorina 1982, Ref. 205.
  19. M. S. Petković, A method for solving equations with interval coeficients (in Serbian). Proc. IV Conf. ”Computer at the University”, Cavtat 1982, 461-467.
  20. L.V. Stefanović, M. S. Petković, On the simultaneous improving k inclusive disks for polynomial complex zeros. Freiburger Intervall-Berichte 7(1982), 1-13.
  21. M. S. Petković, On an iterative method for simultaneous inclusion of polynomial complex zeros. J. Comput. Appl. Math. 1 (1982), 51-56. PDF
  22. M. S. Petković, A family of simultaneous methods for the determination of polynomial complex zeros. Intern. J. Computer Math. 11 (1982), 285-296.
  23. M. S. Petković, Newton’s method in interval arithmetic (in Serbian). Proc. IV Conf. on Computing and Design by Computers, Stubičke Toplice 1982, R3-7.09.
  24. M. S. Petković, Generalized root iterations for simultaneous determination of multiple complex zeros. Z. Angew. Math. Mech. 62 (1982), 627-630.
  25. M. S. Petković, On a generalization of Esseen’s inequality. Univ. Beograd. Publ. Elektrotehn. Fak. Ser. Mat. Fiz. No. 735-No. 762 (1982), 11-14.
  26. G.V. Milovanović, M. S. Petković, On the convergence order of a modified method for simultaneous finding polynomial zeros. Computing 30 (1983), 171-178.
  27. M. S. Petković, G.V. Milovanović, A note on some improvements of the simultaneous methods for determination of polynomial zeros. J. Comput. Appl. Math. 9 (1983), 65-69. PDF
  28. G.V. Milovanović, M. S. Petković, Higher-order methods for the simultaneous determination of multiple zeros of a polynomial (in Serbian). Proc. IV Conf. on Computing and Design by Computers, Stubičke Toplice 1983, R1-2.06.
  29. M. S. Petković, L.V. Stefanović, On some modifications of Ostrowski’s method (in Serbian). Proc. IV Conf. on Computing and Design by Computers, Stubičke Toplice 1983, R1-2.05.
  30. M. S. Petković, L.V. Stefanović, Newton’s method in rounded interval arithmetic (Serbo-Croation). Proc. VI Conf. ”Computer at the University”, Dubrovnik 1984, Ref. 414.1.
  31. M. S. Petković, L.V. Stefanović, Some modified square root iterations for the simultaneous determination of multiple complex zeros of a polynomial. Proc. I Conf. ”Numerical Methods and Approximation Theory” (ed. G.V. Milovanović), Niš 1984, 19-26.
  32. L. D. Petković, M. S. Petković, On the k-th root in circular arithmetic. Computing 33 (1984), 27-35.
  33. M. S. Petković, L. V.  Stefanović, On the convergence order of accelerated root iterations. Numer. Math. 44 (1984), 463-476.
  34. M. S. Petković, L. V.  Stefanović, The numerical stability of the generalised root iterations for polynomial zeros. Comp. Math. Appls. 10 (1984), 97-106. PDF
  35. M. S. Petković, L. V. Stefanović, On a modification of Newton method in triplex arithmetic. Proc. IV Conf.on Applied Mathematics (ed. B. Vrdoljak), Split 1984,73-78.
  36. M. S. Petković, On a modification of Prony’s method. Proc. IV Conf. on Applied Mathematics (ed. B. Vrdoljak), Split 1984, 79-84.
  37. M. S. Petković, The evaluation of complex functions in rounded rectangular arithmetic. Proc. VII Conf. ”Computer at the University”, Cavtat 1985, Ref. 107.1.
  38. L. D. Petković, M. S. Petković, Error estimates of interpolation and numerical integration using circular complex functions. Freiburger Intervall-Berichte 3(1985), 51-60.
  39. M. S. Petković, L.V. Stefanović, On the simultaneous method of the second order for finding polynomial complex zeros in circular arithmetic. Freiburger Intervall-Berichte 3(1985), 63-95.
  40. M. S. Petković, Some estimations for polynomial complex zeros. Zb. Rad. Prirod.-Mat. Fak. Univ. Novi Sad, Ser. Mat. 14, sv. 2 (1985), 123–134.
  41. G. V. Milovanović, M. S. Petković, Computational efficiency of the simultaneous methods for finding polyno- mial zeros, estimation of efficiency. Proc. II Conf. ”Numerical Methods and Approximation Theory” (ed. D. Herceg), Novi Sad 1985, 83-87.
  42. M. S. Petković, G. V. Milovanović, Computational efficiency of the simultaneous methods for finding poly- nomial zeros: comparison of various algorithms. Proc. II Conf. ”Numerical Methods and Approximation Theory” (ed. D. Herceg), Novi Sad 1985, 89-94.
  43. L. V. Stefanović, M. S. Petković, The R-order of convergence of a modified method of Weierstrass’type for finding polynomial zeros. Proc. II Conf. ”Numerical Methods and Approximation Theory” (ed. D. Herceg), Novi Sad 1985, 95-102.
  44. M. S. Petković, L. D. Petković, On an open problem: inclusion isotonocity of Taylor’s circular form of a polynomial. Freiburger Intervall-Berichte 9(1985), 1-8.
  45. M. S. Petković, L. V. Stefanović,On some improvements of square root iteration for polynomial complex zeros. J. Comput. Appl. Math. 15 (1986), 13-25. PDF
  46. L. D. Petković, M. S. Petković, Convergence proof for rational circular centered form. Z. Angew. Math. Mech. 66 (1986), 426-427.
  47. M. S. Petković, G. V. Milovanović, L. V .Stefanović, On the convergence order of accelerated simultaneous method for polynomial zeros. Z. Angew. Math. Mech. 66 (1986), 428-429.
  48. M. S. Petković, Ž.M. Mitrović, L.D. Petković, Arithmetic of circular rings. Proc. Conf. on Interval Mathe- matics, Freiburg 1985 (ed. K. Nickel), Springer-Verlag, Berlin 1986, 133-142.
  49. M. S. Petković, L. V. Stefanović ,On a second order method for the simultaneous inclusion of polynomial complex zeros in rectangular arithmetic. Computing 36 (1986), 249-261.
  50. M. S. Petković, G. V. Milovanović, L. V. Stefanović, On some higher-order methods for the simultaneous approximation of multiple polynomial zeros. Comp. Maths. with Appls. 12 (1986), 951-962. PDF
  51. G. V. Milovanović, M. S. Petković, On computational efficiency of the iterative methods for the simultaneous approximation of polynomial zeros. ACM Trans. Math. Software 12 (1986), 295-306. PDF
  52. M. S. Petković, Some applications of interval arithmetic, analysis of linear electrical circuits. Proc. V Conf. on Applied Mathematics (ed. Z. Bohte), Ljubljana 1986, 109-116.
  53. L. D. Petković, M. S. Petković, Calculation of curvelinear integral by calculus of residues (in Serbian). Proc. VIII Conf. ”Computer at the University”, Cavtat 1986, Ref. 10.09, 1-8.
  54. M. S. Petković, L. D. Petković, On the inclusion isotonicity of Taylor’s circular centered form. Facta Universitatis, Ser. Math. Inform. 1 (1986), 33-36.
  55. M. S. Petković, Gauss’ method in floating-point arithmetic of finite precision (in Serbian). Proc. XI Simpo- sium on Informatics, Jahorina 1987, Ref. 1.79.
  56. L.V. Stefanović, M. S. Petković, The efficiency of criteria for the choice of root values in some methods of Weierstrass’ type. Proc. IX Conf. ”Computer at the University”, Cavtat 1987, Ref. 11 R.05.
  57. M. S. Petković, L. D. Petković, On Halley’s method in circular arithmetic. Proc. IX Conf. ”Computer at the University”, Cavtat 1987, 11 R.04.
  58. M. S. Petković, L. V. Stefanović, On some iteration functions for the simultaneous computation of multiple complex polynomial zeros. BIT 27 (1987), 111-122.
  59. M. S. Petković, Some interval iterations for finding a zero of a polynomial with error bounds. Comput. Math. with Appls. 14 (1987), 479-495. PDF
  60. M. S. Petković, L.V. Stefanović, On some parallel higher-order methods of Halley’s type for finding multiple polynomial zeros. Proc. III Conf. ”Numerical Methods and Approximation Theory” (ed. G.V. Milovanović), Niš 1987, 329-337.
  61. G. V. Milovanović, M. S. Petković, Extremal problems for Lorentz classes of nonnegative polynomials in L2 metric with Jacobi weight. Proceeding of AMS 2 (1988), 283-289.
  62. L. D. Petković, M. S. Petković, On the monotonicity of the higher-order Schulz’s method. Z. Angew. Math. Mech. 68 (1988), 455-456.
  63. L. V. Stefanović, M. S. Petković, Modified single-step methods of Weierstrass’ type for polynomial zeros. Proc. VI Conf. on Applied Mathematics (ed. B. Jovanović), Tara 1988, 195-202.
  64. M. S. Petković, L. D. Petković, On a computational test for the existence of polynomial zero. Comput. Math.  Appls. 17 (1989), 1109-1114. PDF
  65. M. S. Petković, On the Halley-like algorithms for the simultaneous approximation of polynomial complex zeros. SIAM J. Numer. Anal. 26 (1989), 740-763. PDF
  66. M. S. Petković, L. D. Petković, On the bounds of the R-order of some iterative methods. Z. Angew. Math. Mech. 69 (1989), 197-198.
  67. M. S. Petković, L. D. Petković, L.V. Stefanović, On the R-order of a class of simultaneous iterative processes. Z. Angew. Math. Mech. 69 (1989), 199-201.
  68. L. D. Petković, M. S. Petković, On some applications of circular complex functions. Computing 41 (1989), 141-148.
  69. M. S. Petković, On the efficiency of some combined methods for polynomial complex zeros. J. Comput. Appl. Math. 30 (1990), 99-115. PDF
  70. M. S. Petković, Schroeder-like algorithms for multiple complex zeros of a polynomial. Computing 45 (1990), 39–50.
  71. M. S. Petković, J. Herzberger, Hybrid inclusion algorithms for polynomial complex zeros in rectangular arithmetic. Appl. Numer. Math. 7 (1991), 241–262. PDF
  72. M. S. Petković, J. Herzberger, On the efficiency of a class of combined Schulz’s methods for bounding the inverse matrix. Z. Angew. Math. Mech. 71 (1991), 181–187.
  73. M. S. Petković, L. Cvetković, On a hybrid method for a polynomial complex zero. Comput. Math. with Appls. 21 (1991), 181–186. PDF
  74. M. S. Petković, L. V. Stefanović, Forward–backward serial iteration methods for simultaneously approximating polynomial zeros. Int. J. Comput. Math. 37 (1990), 227–238.
  75. M. S. Petković, M. Mignote, On the location of the zeros of a Hurwitz’s polynomial. Facta Universitatis, Ser. Math. Inform. 5 (1990), 45–50.
  76. L. V. Stefanović, M. S. Petković, On the computational efficiency of root–finding methods with recursive corrections. Facta Universitatis, Ser. Math. Inform. 5 (1990), 115–128.
  77. M. S. Petković, Ž. Mitrović, Halley–like hybrid method for solving polynomial equations. Z. Angew. Math. Mech. 72 (1992), 447-450.
  78. M. S. Petković, D. Herceg, Higher–order iterative methods for approximating zeros of analytic functions. J. Comput. Appl. Math. 39 (1992), 243-258. PDF
  79. M. S. Petković, Z. M. Marjanović, A class of simultaneous methods for the zeros of analytic functions. Comput. Math.  Appls. 10 (1991), 79–87. PDF
  80. M. S. Petković, L. V. Stefanović, Z. M. Marjanović, A family of simultaneous zero finding methods. Intern. J. Computer Math. 43 (1992), 111-126. PDF
  81. C. Carstensen, M. S. Petković, On iteration methods without derivatives for the simultaneous determination of polynomial zeros. J. Comput. Appl. Math. 45 (1993), 251-266. PDF
  82. C. Carstensen, M. S. Petković, An improvement of Gargantini’s simultaneous inclusion method for polynomial roots by Schroeder’s correction. Appl. Numer. Math. 13 (1994), 453-468. PDF
  83. M. S. Petković, C. Carstensen, On some improved inclusion methods for polynomial roots with Weierstrass’ corrections. Comput. Math.  Appls. 25 (1993), 59-67. PDF
  84. M. S. Petković, L. V. Stefanović, Z. M. Marjanović, On the R-order of some accelerated methods for the simultaneous finding polynomial zeros. Computing 49 (1993), 349-361.
  85. M. S. Petković, On an inequality of Schmidt’s type. J. of Natural Sciences and Math. 32 (1992), 1-3.
  86. M. S. Petković, J. Herzberger, Inclusion of multiple polynomial roots in complex rectangular arithmetic. In: Scientific Arithmetic, Scientific Computation and Mathematical Modelling, (eds. E. Kauchers, S.M. Markov, G. Mayer), J.C. Baltzer AG, Cirich 1991, pp. 367–375.
  87. M. S. Petković, Inclusion methods for the zeros of analytic functions. In: Computer Arithmetic and Enclosure Methods (eds. L. Atanassova, J. Herzberger), North Holand, Amsterdam 1992, 319-328.
  88. M. S. Petković, Some classes of iterative methods for finding zeros of polynomials and analytic functions. Proc. of I World Congress of Nonlinear Analysts (ed. V. Lakshmikantham), Tampa (USA) 1992, Walter de Gruyter, Berlin-New York 1995, pp. 3859–3870.
  89. L. D. Petković, M. S. Petković, Generalized Ostrowski’s root-finding method. Appl. Math. Comput. 57 (1993), 275–287. PDF
  90. C. Carstensen, M. S. Petković, On some interval methods for algebraic, exponential and trigonometric polynomials. Computing 51 (1993), 313 – 326.
  91. M. S. Petković, M. Mignotte, M. Trajković, The root separation of polynomials and some applications. Z. Angew. Math. Mech. 75  (1995), 551-561.
  92. M. S. Petković, C. Carstensen, On root finding methods with corrections. Serdica, Vol.20, No 2 (1994), 148-157.
  93. M. S. Petković, M. Trajković, On the R-order of convergence of dependent sequences involved in iterative pro- cesses. Proc. VIII Conf. on Applied Mathematics (ed. M. Jaćimović), Tivat 1993, University of Montenegro, Podgorica 1994, 197-206.
  94. Ph. Glesser, M. Mignotte, M. S. Petković, Each univariate complex polynomial has a ’big’ factor. Proc. Royal Soc. Edinburgh 124A (1994), 71-76.
  95. M. S. Petković, M. Trajković, On Dochev’s relation in serial and parallel mode. Zbor. Radova, Univ. N. Sad. 24, 1 (1994), 359-367.
  96. M. S. Petković, Inclusive calculus of residues. In: D.S. Mitrinović, J.D. Kečkić, The Cauchy calculus of residues, Vol. 2, Theory and Applications. Kluwer, Dordrecht 1993, (Ch. X) 140-146.
  97. M. Trajković, L. D. Petković, M. S. Petković, On a diametrical inclusion disk for Zn. Z. Angew. Math. Mech. 75 (1995), 775-782.
  98. L. Petković, M. S. Petković, Iteration functions and disks which contain at least one zero of a polynomial. Proc. IX Conf. on Applied Mathematics (ed. D. Herceg, L. Cvetković), (Budva 1994), Institute of Mathematics, Novi Sad 1995, pp. 85-92
  99. M. S. Petković, C. Carstensen, On a real measure of convergence of single step methods. Proc. IX Conf. on Applied Mathematics (ed. D. Herceg, L. Cvetković), (Budva 1994), Institute of Mathematics, Novi Sad 1995, pp. 101-110.
  100. M. S. Petković, M. Trajković, On the zeros of analytic functions. Proc. IX Conf. on Applied Mathematics (ed. D. Herceg, L. Cvetković), (Budva 1994), Institute of Mathematics, Novi Sad 1995, pp. 93-99.
  101. M. S. Petković, C. Carstensen, M. Trajković: Weierstrass’ formula and zero-finding methods. Numer. Math. 69 (1995), 353 – 372. PDF
  102. M. S. Petković, S. Tričković, On zero-finding methods of the fourth order. J. Comput. Appl. Math. 64 (1995), 291-294. PDF
  103. S. Tričković, M. Trajković, M. S. Petković, Asynchronous methods for simultaneous determination of polynomial roots. FILOMAT 9 (1995), 273–284.
  104. M. Trajković, S. Tričković, M. S. Petković, Halley-like asynchronous methods for polynomial roots. FILOMAT 9 (1995), 261–271.
  105. M. S. Petković, A note on the zeros of rook polynomials. Facta Universitatis 9 (1994), 55-62.
  106. M. S. Petković, S.B. Tričković, Tchebychef-like method for the simultaneous finding zeros of analytic functions. Comput. Math. Appls 31 (1996), 85–93. PDF
  107. M. S. Petković, Iterative methods for bounding the inverse of a matrix: a survey Proc. of the Conf. Algebra, Logic and Discrete Mathematics (ed. S. Bogdanović) (April 1995, Niš), spec. issue FILOMAT 9 (1995), 543–577.
  108. M. S. Petković, S. Tričković, On a method of Tchebychef’s type for the zeros of analytic functions. Proc. X Conf. on Applied Mathematics (ed. D. Herceg, L. Cvetković), Budva 1995, Institute of Mathematics, Novi Sad 1996, pp. 83–88.
  109. T. Sakurai, M. S. Petković, On some simultaneous methods based on Weierstrass-Dochev correction. J. Comput. Appl. Math. 72 (1996), 275–291. PDF
  110. M. S. Petković, On initial conditions for the convergence of simultaneous root finding methods. Computing 57 (1996), 163–177.
  111. M. S. Petković, Asynchronous methods for simultaneous inclusion of polynomial roots. In: Numerical Meth- ods and Error Bounds (eds. G. Alefeld, J. Herzberger), (Oldenburg 1995), Academic Verlag, Berlin 1996, pp. 178–187.
  112. N. Kjurkchiev, M. S. Petković, The behaviour of approximations of the SOR Weierstrass method. Comput. Math. Appls. 32 (1996), 117–121. PDF
  113. 113. M. S. Petković, Dj. Herceg,Point estimation and safe convergence of root-finding simultaneous methods. Scientific Review 21–22 (1996), 117–130.
  114. 114. L. D. Petković, M. S. Petković, Inequalities in circular complex arithmetic: a survey. in: Recent Progress in Inequalities (ed. G. V. Milovanović), Kluwer, Dordrecht 1998, pp. 325–340.
  115. 115. M. S. Petković, Dj. Herceg, Methods with corrections for the simultaneous inclusion of polynomial zeros. Nonlinear Analysis 30 (1997), 73–82.
  116. 116. Dj. Herceg, S.Tričković, M. S. Petković ,On the fourth order methods of Weierstrass’ type. NonlinearAnalysis 30 (1997), 83–88.
  117. M. S. Petković, Dj. Herceg, Boersch-Supan-like methods: Point estimation and parallel implementation. Intern. J. Comput. Math. 64 (1997), 327–341.
  118. M. S. Petković, Dj. Herceg, Simultaneous methods with corrections on MIMD parallel computers. Proc.VII Conf. on Logic and Computer Science (eds. Dj. Paunić, R. Tošić), Novi Sad 1995, Institute of Mathematics, Novi Sad 1997, pp. 129–136.
  119. 119.S. Ilić, M. S. Petković, Dj. Herceg ,A note on Babylonian square-root algorithm and related variants. Novi Sad J. Math. 26 (1996), 155–162.
  120. M. S. Petković, N. Kjurkchiev, A note on the convergence of the Weierstrass SOR method for polynomial roots. J. Comput. Appl. Math. 80 (1997), 163–168. PDF
  121. S. Ilić, M. Petković, From Babylonian formulas to Newton’s method and Julia sets. Proc. on XI Conf on Applied Mathematics (eds D. Herceg and K. Surla), Budva 1996, Institute of Mathematics, Novi Sad, 1997, pp. 127–137.
  122. S. Lakić, M. Petković, On the third order method for computing the matrix square root. Proc. on XI Conf on Applied Mathematics (eds D. Herceg and K. Surla), Budva 1996, Institute of Mathematics, 1997, Novi Sad, pp. 147-156.
  123. M. S. Petković, Dj. Herceg, On the localization of polynomial zeros. Proc. on XI Conf. on Applied Mathematics  (eds D. Herceg and K. Surla), Budva 1996, Institute of Mathematics, Novi Sad, 1997, pp. 319–330.
  124. S. Lakić, M. S. Petković, On the matrix square root. Z. Angew. Math. Mech. 78 (1998), 173–182. PDF
  125. L. Petković, S.B. Tričković, M. S. Petković, Slope methods for the inclusion of complex zeros of polynomials. Reliable Computing Vol. 3 No 4 (1997), 349–362.
  126. M. S. Petković, S. Ilić, S. Tričković, A family of simultaneous zero finding methods. Comput. Math. Appls. 34 (1997), 49–59. PDF
  127. M. S. Petković, Dj. Herceg, S.Ilić, Point estimation and some application to iterative methods. BIT 38 (1998), 111–126. PDF
  128. M. S. Petković, S. Tričković ,Dj. Herceg, On Euler-like methods for the simultaneous approximation of polynomial zeros. Japan J. Idustr. Appl. Math. 15 (1998), 295–315.
  129. M. S. Petković, S. Ilić, Point estimation and the convergence of the Ehrlich-Aberth method. Publications de l’Institut Math ́ematique 62 (1997), 141–149.
  130. M. S. Petković, S.Tričković, Dj. Herceg, Higher order Euler-like methods. Novi Sad J. Math. 28 (1998),1 29–136.
  131. 131. S.Ilić, Dj. Herceg, M. S. Petković, On the convergence of Halley-like method. Novi Sad J. Math. 28 (1998), 61-70.
  132. M. Petković ,Dj. Herceg, S. Ilić, Safe convergence o fsimultaneous methods for polynomial zeros. Numerical Algorithms 17 (1998), 313–332. PDF
  133. M. S. Petković, Dj. Herceg, On the convergence of Wang-Zheng’s method. J. Comput. Appl. Math. 91 (1998), 123–135. PDF
  134. M. S. Petković, L. Petković ,Dj. Herceg, Point estimation of a family of simultaneous zero-finding methods. Comput. Math. Appl. 36 (1998), 1–12. PDF
  135. M. S. Petković, Halley-like method with corrections for the inclusion of polynomial zeros. Computing 62 (1999), 69–88.
  136. M. S. Petković, D. Herceg, On rediscovered iteration methods for solving equations. J. Comput. Appl. Math. 107 (1999), 275–284. PDF
  137. N. Kjurkchiev, M. S. Petković, On the divergence properties of two-sided SOR Weierstrass method. Facta Universitatis 3 (1999), 78–89.
  138. M. S. Petković, D. V. Vranić, On the guaranteed convergence of a family of simultaneous iterative methods. Facta Universitatis 15 (2000), 85–100.
  139. S. B. Tričković, M. S. Petković, Multipoint methods for the determination of multiple zeros of a polynomial. Novi Sad J. Math. Vol. 29, No 1 (1999), 221-233.
  140. M. S. Petković, D. V. Vranić ,On the convergence of Euler-like method for the simultaneous inclusion of polynomial zeros. Comput. Math. Appls. 38 (2000), 95-105. PDF
  141. M. S. Petković, D. V. Vranić, An improvement of Euler-like method for the simultaneous inclusion of polynomial zeros. CD-ROM Proceedings of 16th IMACS WORLD CONGRESS 2000 on Scientific Computation, Applied Mathematics and Simulation, Lausanne, 2000, paper code 310-1.
  142. M. S. Petković, Dj. Herceg, Point estimation of simultaneous methods for solving polynomial equations: a survey. J. Comput. Appl. Math. 136 (2001), 283–307. PDF
  143. M. S. Petković, L. Petković, D. Živković, Laguerre-like methods for the simultaneous approximation of polynomial zeros. Computing (Spec. Vol.) 15 (2001), 189–210.
  144. M. S. Petković, On the priority of iterative methods for the simultaneous determination of polynomial zeros. Proc. on XIV Conf. on Applied Mathematics (eds D. Herceg, K. Surla, Z. Luˇzanin), Institute of Mathematics, Novi Sad 2001, pp. 123–132.
  145. L. D. Petković, M. S. Petković, Safe convergence of Chebychev-like method. Novi Sad J. Math. Vol. 31, No 1 (2001), 113–123.
  146. M. S. Petković, D. V. Vranić, Euler-like method for the simultaneous inclusion of polynomial zeros with Weierstrass’s correction, In: Scientific Computing, Validated Numerics, Interval Methods (eds W. Kraemer and J. Wolff von Gudenberg), Kluwer Academic Publishers, Boston 2001, pp. 153-164.
  147. M. S. Petković, L. Petković, Schroeder-like methods for the simultaneous inclusion of polynomial zeros. Computing (Spec. Vol.) 16 (2002), 185–197.
  148. L. D. Petković, M. S. Petković, D. Živković, Interval root-finding methods of Laguerre-like type. Computing (Spec. Vol.) 16 (2002), 199–211
  149. D. Herceg, M. Petković, J. Nedić, On the convergence of the family of simultaneous methods, Proc. 10th Congress of Yugoslav Mathematicians, Faculty of Mathematics, Belgrade 2002, pp. 293-296.
  150. M. S. Petković, Comments on some recent methods for the simultaneous determination of polynomial zeros, J. Comput. Appl. Math. 145 (2002), 519-524. PDF
  151. M. S. Petković, Computer era in mathematics; a general view, Proceedings of VIII Conference on Computer Science and Information Technology YU INFO (electronic edition), Kopaonik, March 2002.
  152. M. S. Petković, I. Petković, Computer era in mathematics; examples, Proceedings of VIII Conference on Computer Science and Information Technology YU INFO (electronic edition), Kopaonik, March 2002.
  153. M. S. Petković, Laguerre-like inclusion method for polynomial zeros. J. Comput. Appl. Math. 152 (2003), 451-465. PDF
  154. M. S. Petković, L. D. Petković, S. Ilić, On the guaranteed convergence of Laguerre-like method. Comput. Math.  Appls. 46 (2003), 239-251. PDF
  155. L. D. Petković, M. S. Petković, D. Živković, Hansen-Patrick’s family is of Laguerre’s type. Novi Sad J. Math. Vol. 30 (2003), 109-115. PDF
  156. M. S. Petković, L. D. Petković, L. Rančić, Higher-order simultaneous methods for the determination of polynomial multiple zeros. Intern. J. Comput. Math. 80 (2003), 1407-1427. PDF
  157. M. S. Petković, L. Rančić, D. Milošević, On the guaranteed convergence of the Japanese zero-finding method. Publications de l’Institut Math ́ematique, 73 (87) (2003), 59-72.
  158. L. D. Petković, M. S. Petković, D. Milošević, Inclusion Weierstrass-like root-finders with corrections. Filomat 17 (2003), 143-154.
  159. M. S. Petković, D. Milošević, Derivative free combined method for the simultaneous inclusion of polynomial zeros. Filomat 17 (2003) 155-168.
  160. M. S. Petković, L. Rančić, On the guaranteed convergence of the fourth order simultaneous method for polynomial zeros. Appl. Math. Comput. 155  (2004), 531-543. PDF
  161. M. S. Petković, L. Rančić, On the guaranteed convergence of the square-root iteration method. J. Comput. Appl. Math.  170 (2004), 169-179. PDF
  162. M. S. Petković, T. Sakurai, L. Rančić, Family of simultaneous methods of Hansen-Patrick’s type. Appl. Numer. Math. 50 (2004), 489-510. PDF
  163. M. S. Petković, S. Ilić, L. Rančić, The convergence of a family of parallel zero-finding methods. Comput. Math.  Appls. 48 (2004), 455-467. PDF
  164. M. S. Petković, D. Milošević, Ostrowski-like method with corrections for the inclusion of polynomial zeros. Reliable Computing 10 (2004), 437–467.
  165. M. S. Petković, D. Milošević, Laguerre-like methods with corrections for the inclusion of polynomial zeros. Novi Sad J. Math. 34 (2004), 135–156.
  166. M. S. Petković, L. Rančić, A new-fourth order family of simultaneous methods for finding polynomial zeros. Appl. Math. Comp. 164 (2005), 227–248. PDF
  167. M. S. Petković, D. Milošević, Improved Halley-like methods for the inclusion of polynomial zeros. Appl. Math. Comp. 169 (2005), 417–436. PDF
  168. M. S. Petković, D. Milošević, A new higher-order family of inclusion zero-finding methods. J. Comput. Appl. Math. 182  (2005), 416–432. PDF
  169. M. S. Petković, D. Milošević, A higher order family for the simultaneous inclusion of multiple zeros of polynomials. Numerical Algorithms 39 (2005), 415–435. PDF
  170. L. D. Petković, M. S. Petković, D. Milošević, Weierstrass-like methods with corrections for the inclusion of polynomial zeros. Computing 75 (2005), 55–69. PDF
  171. M. S. Petković, D. Milošević, Derivative free inclusion methods for polynomial zeros. Computing 75 (2005), 71–83. PDF
  172. M. S. Petković, D. Milošević, Laguerre-like method for the simultaneous inclusion of multiple zeros of a polynomial. Commun. Appl. Anal. 9 (2005), No.2, 263-284
  173. M. S. Petković, L. D. Petković, Seki Kowa – The Japanese Newton. Proc. of XVI Conf. on Applied Mathematics, Institute of Mathematics (eds N. Krejić, Z. Luˇzanin), Novi Sad 2006, pp. 99–109.
  174. M. S. Petković, I. Petković, Matematics and computers. Proc. of XVI Conf. on Applied Mathematics, Institute of Mathematics (eds N. Krejić, Z. Luˇzanin), Novi Sad 2006, pp. 3–32.
  175. L. Rančić, M. S. Petković, Square-root families for the simultaneous approximation of polynomial multiple zeros. Novi Sad J. Math. 35 (2005), 59–70.
  176. M. S. Petković, D. Milošević, Improvement of convergence condition of the square-root method for the inclusion of multiple zeros. Novi Sad J. Math. 36, No 2 (2006), 101–108.
  177. M. S. Petković, L. Z. Rančić, On the guaranteed convergence of the Chebyshev-like method for computing polynomial zeros. Facta Universitatis, Ser. Math. Inform. 21 (2006), 77-86.
  178. L. D. Petković, M. S. Petković, On the fourth order root finding methods of Euler’s type. Novi Sad J. Math. 36, No 2 (2006), 155-163.
  179. M. S. Petković, D. Milošević, On a new family of simultaneous methods with corrections for the inclusion of polynomial zeros. Intern. J. Comput. Math. 83 (2006), 299–317. PDF
  180. M. S. Petković, L. Rančić, D. Milošević, Laguerre-like methods for the simultaneous approximation of polynomial zeros. YUJOR 16 (2006), 31-44.
  181. M. S. Petković, L. Rančić, On a family of root-finding methods with accelerated convergence. Comput. Math.  Appls. 51 (2006), 999-1010. PDF
  182. M. S. Petković, D. M. Milošević, The numerical stability of a Laguerre-like method for the simultaneous inclusion of polynomial zeros. Univ. Beograd. Publ. Elektrotehn. Fak. Ser. Mat. 17 (2006), 93–109.
  183. M. S. Petković, L. D. Petković, On the convergence of the sequences of Gerschgorin-like disks. Numer. Algorithms 42 (2006), 363–377. PDF
  184. M. S. Petković, D. M. Milošević, The numerical stability of the improved Gargantini method. Filomat 20 (2006), 87–99.
  185. M. S. Petković, L. D. Petković,  L. Rančić, Point estimation of simultaneous methods for solving polynomial equations: a survey (II). J. Comput. Appl. Math. 205 (2007), 32–52. PDF
  186. M. S. Petković, L. D. Petković, Construction of zero-finding methods by Weierstrass functions. Appl. Math. Comp. 184 (2007), 351–359. PDF
  187. M. S. Petković, D. Milošević, The improved convergence condition of the inclusion Laguerre-like method. Proc.of XVII Conf. on Applied Mathematics (eds.Dj. Herceg, H. Zarin) ,Institute of Mathematics, Novi Sad 2007, 85–96.
  188. L. D. Petković, M. S. Petković, L. Rančić, Higher-order methods of Chebyshev’s type for solving polynomial equations. Proc.ofXVIIConf. on Applied Mathematics (eds. Dj. Herceg, H.Zarin), Institute of Mathematics, Novi Sad 2007, 71–78.
  189. 188. M. S. Petković, Comments on the Basto-Semiao-Calheiros root-finding method. Appl. Math. Comp. 184 (2007), 143–148. PDF
  190. L. D. Petković, M. S. Petković, A note on some recent methods for solving nonlinear equations. Appl. Math. Comp. 185 (2007), 368-374. PDF
  191. M. S. Petković, L. D. Petković, A one parameter square root family of two-step root-finders. Appl. Math. Comp. 188 (2007), 339–344. PDF
  192. M. S. Petković, S. M. Ilić, I. Petković, A posteriori error bound methods for the inclusion of polynomial zeros. J. Comput. Appl. Math. 208 (2007), 316–330. PDF
  193. L. D. Petković, M. S. Petković, On the Newton-like method for the inclusion of polynomial zeros. Appl. Anal. Discrete Math. 1 (2007), 217-227.
  194. M. S. Petković, L. D. Petković, On a cubically convergent derivative free root finding method. Intern. J. Comput. Math. 84 (2007), 505–513. PDF
  195. M. S. Petković, L. D. Petković, Cubically convergent a posteriori error bound method for the inclusion of polynomial zeros, Neural, Parallel & Scientific Computation 15 (2007), 239–252.
  196. M. S. Petković, L. D. Petković, S. M. Ilić, On the convergence of the third order root-solver, Facta Universitatis 22 (2007), 91–103.
  197. L. D. Petković, L. Z. Rančić, M. S. Petković, An efficient higher order family of root finders, J. Comput. Appl. Math. 216 (2008), 56–72. PDF
  198. M. S. Petković, D. M. Milošević, On the convergence conditions of generalized root iteration for the inclusion of polynomial zeros, Mathematics and Computers in Simulation 78 (2008), 12–26. PDF
  199. M. S. Petković, D. M. Milošević, L. D. Petković, High order Euler-like method for the inclusion of polynomial zeros, Appl. Math. Comp. 196 (2008), 762–773. PDF
  200. M. S. Petković, New higher order families of methods for finding polynomial zeros. Linear Algebra Appl. 429 (2008), 2602–2622. PDF
  201. M. S. Petković, D. M. Milošević, L. Z. Rančić, Family of iterative methods for computing the zeros of analytic functions, J. Pure & Appl. Math. 46 (2008), 181–189.
  202. D. M. Milošević, L. D. Petković, M. S. Petković, Self-validated methods for the simultaneous inclusion of polynomial zeros. J. Pure & Appl. Math. 46 (2008), 171–180.
  203. D. M. Miloševic, M. S. Petković, On the sumultaneous improving k inclusion disks for polynomial zeros, Filomat 22 (2008), 9–21.
  204. M. S. Petković, B. I. Yun, Sigmoid-like functions and root finding methods, Appl. Math. Comp. 204 (2008), 784–793. PDF
  205. M. S. Petković, A highly efficient root-solver of very fast convergence, Appl. Math. Comp. 205 (2008), 298-302. PDF
  206. L. Petković, M. Petković, The link between Schr ̈oder’s iteration methods of the first and second kind, Novi Sad J. Math. 38 (2008), 55–63.
  207. L. Z. Rančić, M. S. Petković, A note on the improved derivative free root-solvers, J. Comput. Appl. Math, 223 (2009), 535-539. PDF
  208. M. S. Petković, L. Rančić, L. D. Petković, S. Ilić, Chebyshev-like root finding methods with accelerated convergence, Numerical Linear Algebra and Applications 16 (2009), 971–994. PDF
  209. M. S. Petković, On optimal multipoint methods for solving nonlinear equations, Novi Sad J. Math. 39 (2009), 123–130.
  210. B. I. Yun, M. S. Petković, Iterative methods based on the signum function approach for solving nonlinear equations, Numer. Algorithms 52 (2009), 649–662. PDF
  211. M. S. Petković, A remark on He’s variational iteration technique for solving nonlinear equations, J. Comput. Appl. Math. 233 (2009), 1187–1189. PDF
  212. M. S. Petković, Dj.Herceg, I .Petković, On a simultaneous method of Newton-Weierstrass’ type for finding all zeros of a polynomial, Appl. Math. Comput. 215 (2009), 2456–2463. PDF
  213. M. S. Petković, The self-validated method for polynomial zeros of high efficiency, J. Comput. Appl. Math. 233 (2009), 1175–1186. PDF
  214. M. S. Petković, D. M. Milošević, I. Petković, On the improved Newton-like methods for the inclusion of polynomial zeros, Int. J. Comput. Math. 87 (2010), 1726-1735. PDF
  215. M. S. Petković, L. D. Petković, Dj. Herceg, On Schr ̈oder’s families of root-finding methods, J. Comput. Appl. Math. 233 (2010), 1755–1762. PDF
  216. R. Thukral, M. S. Petković, Family of three-point methods of optimal order for solving nonlinear equations, J. Comput. Appl. Math. 233 (2010), 2278–2284. PDF
  217. M. S. Petković, On a general class of multipoint root-finding methods of high computational efficiency, SIAM. J. Numer. Anal. 47 (6) (2010), 4402–4414. PDF
  218. L. D. Petković, M. S. Petković, J. Dˇzunić, A class of three-point root-solvers of optimal order of convergence, Appl. Math. Comput. 216 (2010), 671–676. PDF
  219. M. S. Petković, L. D. Petković, J. Dˇzunić, Accelerating generators of iterative methods for finding multiple roots of nonlinear equations, Comput. Math. Appls. 59 (2010), 2784–2793. PDF
  220. M. S. Petković, L. D. Petković, Families of optimal multipoint methods for solving nonlinear equations: a survey, Appl. Anal. & Discret. Math. 4 (2010), 1–22. PDF
  221. D. Milošević, M. S. Petković, Dj. Herceg, M. Milošević,The improved square-root methods for the inclusion of multiple zeros of polynomials, Novi Sad J. Math. 40 (2010), 77–101.
  222. M. S. Petković, S. Ilić, J. Dˇzunić, Derivative free two-point methods with and without memory for solving nonlinear equations, Appl. Math. Comput. 217 (2010), 1887–1895. PDF
  223. B. Neta, M. S. Petković, Construction of optimal order nonlinear solvers using inverse interpolation, Appl. Math. Comput. 217 (2010), 2448–2455. PDF
  224. M. S. Petković, On optimal two-point methods for solving nonlinear equations, Proc. of XVIII Conf. on Applied Mathematics (eds H. Zarin, Dj. Herceg), Department of Mathematics and Informatics, NoviSad 2010, pp. 75–82.
  225. M. S. Petković, D. M. Milošević Higher orde rmethods for th einclusion of multiple zeros of polynomials, Reliable Computing 15(2) (2011), 91–108. PDF
  226. B. I. Yun, M. S. Petković, A quadratically convergent iterative method for nonlinear equations, J. Korean Math. Soc. 48 (2011), 487–497. PDF
  227. M. S. Petković, M. R. Milošević, D. M. Milošević, New higher-order methods for the simultaneous inclusion of polynomial zeros, Numer. Algorithms, 58 (2011), 179-201. PDF
  228. M. S. Petković, Remarks on “On a general class of multipoint root-finding methods of high computational efficiency”, SIAM J. Numer. Math. 49 (2011), 1317–1319. PDF
  229. J. Dˇzunić, M. S. Petković, L. D. Petković, A family of optimal three-point methods for solving nonlinear equations using two parametric functions, Appl. Math. Comput. 217 (2011), 7612–7619. PDF
  230. M. S. Petković, M. R. Milošević, D. M. Milošević, Efficient methods for the inclusion of polynomial zeros, Appl. Math. Comput. 217 (2011), 7636–7652. PDF
  231. M. S. Petković, L. Z. Rančić, M. R. Milošević, On the new fourth-order methods for the simultaneous ap- proximation of polynomial zeros, J. Comput. Appl. Math. 235 (2011), 4056–4075. PDF
  232. M. S. Petković, J. Dˇzunić, M. Milošević, Traub’s accelerating generator of iterative root finding methods, Appl. Math. Lett. 24 (2011), 1443–1448. PDF
  233. M. S. Petković, J. Dˇzunić, B. Neta, Interpolatory multipoint methods with memory for solving nonlinear equations, Appl. Math. Comput. 218 (2011) 2533–2541. PDF
  234. M. S. Petković J. Dˇzunić, L. D. Petković, A family of two-point methods with memory for solving nonlinear equations, Appl. Anal. Discrete Math. 5 (2011), 298–317. PDF
  235. J. Dˇzunić, M. S. Petković, L. D. Petković, Three-point methods with and without memory for solving nonlinear equations, Appl. Math. Comput. 218 (2012), 4917–4927. PDF
  236. M. S. Petković, L. Rančić, M. Milošević, On the improved Farmer-Loizou method for finding polynomial zeros, Int. J. Comput. Math. 89 (2012), 499–509. PDF
  237. J. Dˇzunić, M. S. Petković, A family of three-point methods of Ostrowski’s type for solving nonlinear equations, J. Appl. Math. 2012 (2012), Article ID 425867, 9 pages doi:10.1155/2012/425867 (electronic journal). PDF
  238. J. Dˇzunić, M. S. Petković, On generalized multipoint root-solvers with memory, J. Comput. Appl. Math. 236 (2012), 2909–2920. PDF
  239. J. Dˇzunić, M. S. Petković,  A cubically convergent Steffensen-like method for solving nonlinear equations, Appl. Math. Lett. 25 (2012), 1881–1886. PDF
  240. M. S. Petković, M. Milošević, Efficient Halley-like methods for the inclusion of multiple zeros of polynomials, Comput. Meth. Appl. Math. 12 (2012), 351–366.
  241. M. R. Milošević, M. S. Petković Ostrowski-like method for the inclusion of a single complex polynomial zero, Reliable Comput. 16 (2012), 225–238. PDF
  242. M. S. Petković, A note on the priority of optimal multipoint methods for solving nonlinear equations, Appl. Math. Comput. 219 (2013), 5249–5252. PDF
  243. J. Dˇzunić, M. S. Petković, L. D. Petković, On an efficient family of simultaneous methods for finding polynomial multiple zeros, in : Numerical Mathematics and Advanced Applications, (eds. A. Cangiani, R. L. Davidchack, E. H. Georgoulis, A. Gorban, J. Levesley, M. V. Tretyakov), Springer-Heidelberg-New York, 2013, pp. 149–156.
  244. J. Dˇzunić, M. S. Petković, On generalized biparametric multipoint root finding methods with memory, J. Comput. Appl. Math. 255 (2014), 362–375. PDF
  245. M. S. Petković, L. Z. Rančić, On the guaranteed convergence of new two-point root-finding methods for polynomial zeros, Numer. Algorithms 67 (2014), 187–222. PDF
  246. M. S. Petković, L. D. Petković, J. Dˇzunić, On an efficient simultaneous method for finding polynomial zeros, Appl. Math. Letters 28 (2014) 60–65. PDF
  247. M. S. Petković, B. Neta, L. D. Petković, J. Dˇzunić, Multipoint methods for solving nonlinear equations; a survey, Appl. Math. Comput. 226 (2014), 635–660. PDF
  248. D. M. Milošević, M. S. Petković, M. R. Milošević, On an interval method for the inclusion of one polynomial zero, Facta Universitatis, Ser. Math. Inform. 28 (2013), 403–416.
  249. J. R. Sharma, H. Arora, M. S. Petković, An efficient derivative free family of fourth order methods for solving systems of nonlinear equations, Appl. Math. Comput. 235 (2014), 383–393. PDF
  250. M. S. Petković, L. D. Petković, J. Dˇzunić, On an efficient method for the simultaneous approximation of polynomial multiple zeros, Appl. Anal. Discrete Math. 8 (2014), 73–94. PDF
  251. D. M. Milošević, M. S. Petković, M. R. Milošević, Improved methods for the simultaneous inclusion of multiple polynomial zeros, Appl. Math. Comput. 241 (2014), 332–346. PDF
  252. M. D. Petković, M. S. Petković, Iterative methods for the inclusion of the inverse matrix, arXiv: 1405.5343 [mat.NA] (2014). [PDF]
  253. M. S. Petković. L. Z. Rančić, On the guaranteed convergence of a cubically convergent Weierstrass-like root-finding method, Int. J. Comput. Math. 92 (2015), 1303–1312. PDF
  254. M. S. Petković, Multi-step root solvers of Traub’s type in real interval arithmetic, Appl. Math. Comput. 248 (2014), 430–440. PDF
  255. M. D. Petković, M. S. Petković, Hyper-power methods for the computation of outer inverses, J. Comp. Appl. Math. 278 (2015), 110–118. PDF
  256. M. S. Petković, J. R. Sharma, On some efficient derivative-free iterative methods with memory for solving systems of nonlinear equations, Numerical Algorithms, 71 (2016), 457-474 DOI: 10.1007/s11075-015-0003-9. PDF
  257. B. I. Yun, M. S. Petković, J. Dˇzunić, On a general transformation of multipoint root-solvers, Appl. Math.Comput. 292 (2016), 136–139. PDF
  258. L. Rančić, M. S. Petković, New simultaneous root-finding methods with accelerated convergence for analytic functions, J. Comp. Appl. Math. 296 (2016), 228–236. PDF
  259. L. D. Petković, M. S. Petković, A note on a new one-parameter root solver, arXiv: 1706.00303 [math. NA](2017).
  260. L. D. Petković, M. S. Petković, On a high-order one-parameter family for the simultaneous determination ofpolynomial roots, Appl. Math. Letters 74 (2017), 94–101. PDF 
  261. M. S. Petkovic, L. D. Petkovic, Traub-Gander’s family for the simultaneous determination of multiple zerosof polynomials, J. Comp. Appl. Math. 327 (2018), 362–371. PDF
  262. M. S. Petkovic, L. D. Petkovic, Dynamic study of Schro ̈der’s families of first and second kind, Numer. Algor. 78 (2018), 847-865. PDF
  263. L. D. Petković, M. S. Petković, B. Neta, On optimal parameter of Laguerre’s family of zero-finding methods, Intern. J. Comp. Math. online, DOI: 10.1018/00207160.2018.1429598. PDF
  264. J. Dˇzunić, L. D. Petković, M. S. Petković, On an application of Herzberger’s matrix method to multipoint families of root-solvers, Filomat (accepted). PDF
  265. M. S. Petković, L. D. Petković, A note on non-inclusion “interval” root solvers, arXiv:1803.04524v1, mat.NA, 6 Mar 2018, pp. 1–8.
  266. M. S. Petkovic, L. D. Petkovic, A note on determinantal representation of a Schroeder-Koenig-like simultaneous method for finding polynomial zeros, J. Comp. Appl. Math. 343 (2018), 481-487. PDF
  267. M. S. Petković, L. D. Petković, On root-ratio multipoint methods for finding multiple zeros of univariate functions, arXiv: 1809.09518 [math. NA] (2017).
  268. M. S. Petković, L. D. Petković, Construction and efficiency of multipoint root-ratio methods for finding multiple zeros, J. Comp. Appl. Math. 351 (2019), 54-65. PDF