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Zdzislaw Jackiewicz
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- affiliation: Department of Mathematics, Arizona State University, Tempe, AZ, USA
- affiliation: AGH University of Science and Technology, Kraków, Poland
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2020 – today
- 2024
- [j54]Kevin Burrage, Zdzislaw Jackiewicz, Bernd Krauskopf, Yuto Miyatake, Helmut Podhaisky, Mayya Tokman:
ANODE 2023 In honour of John Butcher's 90th birthday. Numer. Algorithms 96(3): 1019-1020 (2024) - 2022
- [j53]Michal Bras
, Giuseppe Izzo
Construction of G- or G(ϵ)-symplectic general linear methods. Appl. Math. Comput. 431: 127204 (2022) - [j52]Ali Abdi
Global error estimation for explicit general linear methods. Numer. Algorithms 89(3): 1075-1093 (2022) - [j51]Ali Abdi
Global error estimation for explicit second derivative general linear methods. Numer. Algorithms 90(2): 833-850 (2022) - 2021
- [j50]Michal Bras
A new class of strong stability preserving general linear methods. J. Comput. Appl. Math. 396: 113612 (2021) - 2020
- [j49]Giuseppe Izzo
Strong stability preserving implicit-explicit transformed general linear methods. Math. Comput. Simul. 176: 206-225 (2020)
2010 – 2019
- 2019
- [j48]Khalaf M. Alanazi
Numerical simulations of spread of rabies in a spatially distributed fox population. Math. Comput. Simul. 159: 161-182 (2019) - [j47]Luigi Brugnano
Preface. Numer. Algorithms 81(4): 1181-1182 (2019) - [j46]Giuseppe Izzo
Transformed implicit-explicit DIMSIMs with strong stability preserving explicit part. Numer. Algorithms 81(4): 1343-1359 (2019) - 2018
- [j45]Giuseppe Izzo
Strong stability preserving transformed DIMSIMs. J. Comput. Appl. Math. 343: 174-188 (2018) - [j44]Giovanna Califano, Giuseppe Izzo
Strong Stability Preserving General Linear Methods with Runge-Kutta Stability. J. Sci. Comput. 76(2): 943-968 (2018) - 2017
- [j43]Michal Bras
Accurate Implicit-Explicit General Linear Methods with Inherent Runge-Kutta Stability. J. Sci. Comput. 70(3): 1105-1143 (2017) - 2015
- [j42]Z. Bartoszewski
Numerical solution of threshold problems in epidemics and population dynamics. J. Comput. Appl. Math. 279: 40-56 (2015) - [j41]Angelamaria Cardone
Order conditions for general linear methods. J. Comput. Appl. Math. 290: 44-64 (2015) - [j40]Giuseppe Izzo
Strong Stability Preserving General Linear Methods. J. Sci. Comput. 65(1): 271-298 (2015) - 2014
- [j39]Giuseppe Izzo
Construction of algebraically stable DIMSIMs. J. Comput. Appl. Math. 261: 72-84 (2014) - [j38]Michal Bras
Search for efficient general linear methods for ordinary differential equations. J. Comput. Appl. Math. 262: 180-192 (2014) - [j37]Zdzislaw Jackiewicz
Numerical simulations of traveling wave solutions in a drift paradox inspired diffusive delay population model. Math. Comput. Simul. 96: 95-103 (2014) - [j36]Kevin Burrage
Preface. Numer. Algorithms 65(3): 375-376 (2014) - [j35]Angelamaria Cardone
Extrapolation-based implicit-explicit general linear methods. Numer. Algorithms 65(3): 377-399 (2014) - [j34]Dajana Conte
Natural Volterra Runge-Kutta methods. Numer. Algorithms 65(3): 421-445 (2014) - 2013
- [j33]Dajana Conte
Numerical search for algebraically stable two-step almost collocation methods. J. Comput. Appl. Math. 239: 304-321 (2013) - [i1]Angelamaria Cardone, Zdzislaw Jackiewicz, Hong Zhang, Adrian Sandu:
Extrapolation-based implicit-explicit general linear methods. CoRR abs/1304.2276 (2013) - 2012
- [j32]Z. Bartoszewski
Explicit Nordsieck methods with extended stability regions. Appl. Math. Comput. 218(10): 6056-6066 (2012) - [j31]Raffaele D'Ambrosio
Perturbed MEBDF methods. Comput. Math. Appl. 63(4): 851-861 (2012) - [j30]Angelamaria Cardone
Explicit Nordsieck methods with quadratic stability. Numer. Algorithms 60(1): 1-25 (2012) - 2011
- [j29]Michal Bras
Nordsieck methods with computationally verified algebraic stability. Appl. Math. Comput. 217(21): 8598-8610 (2011) - [j28]Raffaele D'Ambrosio
Construction and implementation of highly stable two-step continuous methods for stiff differential systems. Math. Comput. Simul. 81(9): 1707-1728 (2011) - 2010
- [j27]Giuseppe Izzo
General linear methods for Volterra integral equations. J. Comput. Appl. Math. 234(9): 2768-2782 (2010) - [j26]Dajana Conte
Two-step Runge-Kutta Methods with Quadratic Stability Functions. J. Sci. Comput. 44(2): 191-218 (2010) - [j25]John C. Butcher, Zdzislaw Jackiewicz
Preface. Numer. Algorithms 53(2-3): 149-151 (2010) - [j24]Raffaele D'Ambrosio
Two-step almost collocation methods for ordinary differential equations. Numer. Algorithms 53(2-3): 195-217 (2010) - [j23]Raffaele D'Ambrosio
Continuous two-step Runge-Kutta methods for ordinary differential equations. Numer. Algorithms 54(2): 169-193 (2010)
2000 – 2009
- 2009
- [j22]Zdzislaw Jackiewicz
A strategy for choosing Gegenbauer reconstruction parameters for numerical stability. Appl. Math. Comput. 212(2): 418-434 (2009) - 2008
- [j21]Zdzislaw Jackiewicz
Numerical solution of a Fredholm integro-differential equation modelling Theta-neural networks. Appl. Math. Comput. 195(2): 523-536 (2008) - [j20]Dajana Conte
Two-step almost collocation methods for Volterra integral equations. Appl. Math. Comput. 204(2): 839-853 (2008) - 2007
- [j19]Mustazee Rahman
Stochastic approximations of perturbed Fredholm Volterra integro-differential equation arising in mathematical neurosciences. Appl. Math. Comput. 186(2): 1173-1182 (2007) - [j18]John C. Butcher, Zdzislaw Jackiewicz
Error propagation of general linear methods for ordinary differential equations. J. Complex. 23(4-6): 560-580 (2007) - [j17]Zdzislaw Jackiewicz:
General linear methods. Scholarpedia 2(4): 2852 (2007) - 2005
- [j16]Zdzislaw Jackiewicz
Construction and Implementation of General Linear Methods for Ordinary Differential Equations: A Review. J. Sci. Comput. 25(1-2): 29-49 (2005) - [j15]Anne Gelb, Zdzislaw Jackiewicz
Determining Analyticity for Parameter Optimization of the Gegenbauer Reconstruction Method. SIAM J. Sci. Comput. 27(3): 1014-1031 (2005) - 2004
- [j14]Zdzislaw Jackiewicz
Spectral Versus Pseudospectral Solutions of the Wave Equation by Waveform Relaxation Methods. J. Sci. Comput. 20(1): 1-28 (2004) - [j13]John C. Butcher, Zdzislaw Jackiewicz
Construction of General Linear Methods with Runge-Kutta Stability Properties. Numer. Algorithms 36(1): 53-72 (2004) - [j12]Zdzislaw Jackiewicz
Determination of Optimal Parameters for the Chebyshev-Gegenbauer Reconstruction Method. SIAM J. Sci. Comput. 25(4): 1187-1198 (2004) - 2003
- [j11]Zdzislaw Jackiewicz
Stability of Gauss-Radau Pseudospectral Approximations of the One-Dimensional Wave Equation. J. Sci. Comput. 18(2): 287-313 (2003) - [j10]John C. Butcher, Zdzislaw Jackiewicz
A new approach to error estimation for general linear methods. Numerische Mathematik 95(3): 487-502 (2003) - 2002
- [j9]Anne Gelb, Zdzislaw Jackiewicz, Bruno D. Welfert:
Absorbing Boundary Conditions of the Second Order for the Pseudospectral Chebyshev Methods for Wave Propagation. J. Sci. Comput. 17(1-4): 501-512 (2002) - [j8]John C. Butcher, Zdzislaw Jackiewicz
Error Estimation for Nordsieck Methods. Numer. Algorithms 31(1-4): 75-85 (2002) - 2000
- [j7]Zdzislaw Jackiewicz, Arne Marthinsen, Brynjulf Owren
Construction of Runge-Kutta methods of Crouch-Grossman type of high order. Adv. Comput. Math. 13(4): 405-415 (2000)
1990 – 1999
- 1999
- [j6]John C. Butcher, Philippe Chartier, Zdzislaw Jackiewicz:
Experiments with a variable-order type 1 DIMSIM code. Numer. Algorithms 22(3-4): 237-261 (1999) - 1998
- [j5]Z. Bartoszewski
Construction of two-step Runge-Kutta methods of high order for ordinary differential equations. Numer. Algorithms 18(1): 51-70 (1998) - 1997
- [j4]John C. Butcher, Philippe Chartier, Zdzislaw Jackiewicz:
Nordsieck representation of DIMSIMs. Numer. Algorithms 16(2): 209-230 (1997) - 1996
- [j3]Zdzislaw Jackiewicz, S. Tracogna:
Variable stepsize continuous two-step Runge-Kutta methods for ordinary differential equations. Numer. Algorithms 12(2): 347-368 (1996) - 1990
- [j2]Maria Rosaria Crisci, Zdzislaw Jackiewicz, Elvira Russo, Antonia Vecchio:
Global stability analysis of the Runge-Kutta methods for volterra integral and integro-differential equations with degenerate kernels. Computing 45(4): 291-300 (1990)
1970 – 1979
- 1978
- [j1]Zdzislaw Jackiewicz
On the convergence of multistep methods for the Cauchy problem for ordinary differential equations. Computing 20(4): 351-361 (1978)
Coauthor Index
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