Vladimir P. Gerdt

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2008

32 EE Vladimir P. Gerdt, Mikhail V. Zinin: A pommaret division algorithm for computing Grobner bases in boolean rings. ISSAC 2008: 95-102

31 EE Ochbadrakh Chuluunbaatar, A. A. Gusev, Vladimir P. Gerdt, V. A. Rostovtsev, Sergey I. Vinitsky, A. G. Abrashkevich, Michail S. Kaschiev, V. V. Serov: POTHMF: A program for computing potential curves and matrix elements of the coupled adiabatic radial equations for a hydrogen-like atom in a homogeneous magnetic field. Computer Physics Communications 178(4): 301-330 (2008)

2007

30 EE Ochbadrakh Chuluunbaatar, Alexander Gusev, Vladimir P. Gerdt, Michail S. Kaschiev, Vitaly Rostovtsev, Valentin Samoylov, Tatyana Tupikova, Sergey I. Vinitsky: A Symbolic-Numerical Algorithm for Solving the Eigenvalue Problem for a Hydrogen Atom in the Magnetic Field: Cylindrical Coordinates. CASC 2007: 118-133

29 EE Vladimir P. Gerdt, Arsen Khvedelidze, Yuri Palii: Deducing the Constraints in the Light-Cone SU (3) Yang-Mills Mechanics Via Gröbner Bases. CASC 2007: 145-159

28 EE Sergey I. Vinitsky, Vladimir P. Gerdt, A. A. Gusev, Michael S. Kaschiev, Vitaly Rostovtsev, V. N. Samoilov, T. V. Tupikova, Ochbadrakh Chuluunbaatar: A symbolic-numerical algorithm for the computation of matrix elements in the parametric eigenvalue problem. Programming and Computer Software 33(2): 105-116 (2007)

27 EE Vladimir P. Gerdt, Yuri A. Blinkov: On selection of nonmultiplicative prolongations in computation of Janet bases. Programming and Computer Software 33(3): 147-153 (2007)

2006

26 EE Alexander Gusev, Vladimir P. Gerdt, Michail S. Kaschiev, Vitaly Rostovtsev, Valentin Samoylov, Tatyana Tupikova, Sergey I. Vinitsky: A Symbolic-Numerical Algorithm for Solving the Eigenvalue Problem for a Hydrogen Atom in Magnetic Field. CASC 2006: 205-218

25 EE Vladimir P. Gerdt: Groebner Bases Applied to Systems of Linear Difference Equations CoRR abs/cs/0611041: (2006)

24 EE Vladimir P. Gerdt, Yuri A. Blinkov, Vladimir V. Mozzhilkin: Gröbner Bases and Generation of Difference Schemes for Partial Differential Equations CoRR abs/math/0605334: (2006)

23 EE Sergey I. Vinitsky, Vladimir P. Gerdt, Alexander Gusev, Michail S. Kaschiev, V. A. Rostovtsev, V. N. Samoilov, T. V. Tupikova, Yoshio Uwano: Symbolic algorithm for factorization of the evolution operator of the time-dependent Schrödinger equation. Programming and Computer Software 32(2): 103-113 (2006)

22 EE Vladimir P. Gerdt, D. A. Yanovich: Effectiveness of involutive criteria in computation of polynomial Janet bases. Programming and Computer Software 32(3): 134-138 (2006)

2005

21 EE Vladimir P. Gerdt, Yuri A. Blinkov: Janet-Like Monomial Division. CASC 2005: 174-183

20 EE Vladimir P. Gerdt, Yuri A. Blinkov: Janet-Like Gröbner Bases. CASC 2005: 184-195

19 EE Alexander Gusev, Vladimir P. Gerdt, Michail S. Kaschiev, Vitaly Rostovtsev, Valentin Samoylov, Tatyana Tupikova, Yoshio Uwano, Sergey I. Vinitsky: Symbolic-Numerical Algorithm for Solving the Time-Dependent Schrödinger Equation by Split-Operator Method. CASC 2005: 244-258

18 EE Vladimir P. Gerdt, Daniel Robertz: A Maple Package for Computing Groebner Bases for Linear Recurrence Relations CoRR abs/cs/0509070: (2005)

17 EE Vladimir P. Gerdt, D. A. Yanovich: Parallel computation of Janet and Gröbner bases over rational numbers. Programming and Computer Software 31(2): 73-80 (2005)

2003

16 EE Vladimir P. Gerdt, D. A. Yanovich: Implementation of the FGLM Algorithm and Finding Roots of Polynomial Involutive Systems. Programming and Computer Software 29(2): 72-74 (2003)

15 EE Giuseppa Carrà Ferro, Vladimir P. Gerdt: Improved Kolchin-Ritt Algorithm. Programming and Computer Software 29(2): 83-87 (2003)

2002

14 EE Vladimir P. Gerdt: On an Algorithmic Optimization in Computation of Involutive Bases. Programming and Computer Software 28(2): 62-65 (2002)

2001

13 EE Vladimir P. Gerdt, D. A. Yanovich, Yuri A. Blinkov: Fast Search for the Janet Divisor. Programming and Computer Software 27(1): 22-24 (2001)

1997

12 EE Vladimir P. Gerdt, Vladimir V. Kornyak: An algorithm for analysis of the structure of finitely presented Lie algebras. Discrete Mathematics & Theoretical Computer Science 1(2): 217-228 (1997)

1996

11 Vladimir P. Gerdt, Vladimir V. Kornyak: Construction of Finitely Presented Lie Algebras and Superalgebras. J. Symb. Comput. 21(3): 337-349 (1996)

1991

10 EE Vladimir P. Gerdt, N. V. Khutornoy, A. Yu. Zharkov: Lie-Bäcklund Symmetries of Coupled Nonlinear Schrödinger Equations. ISSAC 1991: 313-314

9 Vladimir P. Gerdt: Computer Algebra Tools for Higher Symmetry Analysis of Nonlinear Evolution Equations. Programming Environments for High-Level Scientific Problem Solving 1991: 107-117

1990

8 EE Vladimir P. Gerdt, A. Yu. Zharkov: Computer Generation of Necessary Integrability Conditions for Polynomial-Nonlinear Evolution Systems. ISSAC 1990: 250-254

7 EE Vladimir P. Gerdt, N. V. Khutornoy, A. Yu. Zharkov: Solving Algebraic Systems which Arise as Necessary Integrability Conditions for Polynomial-Nonlinear Evolution Equations. ISSAC 1990: 299

6 Vladimir P. Gerdt, A. Yu. Zharkov: Computer Classification of Integrable Coupled KdV-like Systems. J. Symb. Comput. 10(2): 203-208 (1990)

1987

5 R. N. Fedorova, Vladimir P. Gerdt, N. N. Govorun, V. P. Shirikov: Computer algebra in physical research of Joint Institute for Nuclear Research. EUROCAL 1987: 1-10

4 Vladimir P. Gerdt, N. A. Kostov, Z. T. Kostova: Computer algebra and computation of Puiseux expansions of algebraic functions. EUROCAL 1987: 206-207

3 Vladimir P. Gerdt, A. B. Shabat, S. I. Svinolupov, A. Yu. Zharkov: Computer algebra applications for investigating integrability of nonlinear evolution systems. EUROCAL 1987: 81-92

2 Vladimir P. Gerdt, A. Yu. Zharkov: Computer classification of integrable seventh order MKdV-like equations. EUROCAL 1987: 93-94

1985

1 Vladimir P. Gerdt, A. B. Shvachka, A. Yu. Zharkov: Computer Algebra Application for Classification of Integrable Non-Linear Evolution Equations. J. Symb. Comput. 1(1): 101-107 (1985)

2008
32	EE	Vladimir P. Gerdt, Mikhail V. Zinin: A pommaret division algorithm for computing Grobner bases in boolean rings. ISSAC 2008: 95-102
31	EE	Ochbadrakh Chuluunbaatar, A. A. Gusev, Vladimir P. Gerdt, V. A. Rostovtsev, Sergey I. Vinitsky, A. G. Abrashkevich, Michail S. Kaschiev, V. V. Serov: POTHMF: A program for computing potential curves and matrix elements of the coupled adiabatic radial equations for a hydrogen-like atom in a homogeneous magnetic field. Computer Physics Communications 178(4): 301-330 (2008)
2007
30	EE	Ochbadrakh Chuluunbaatar, Alexander Gusev, Vladimir P. Gerdt, Michail S. Kaschiev, Vitaly Rostovtsev, Valentin Samoylov, Tatyana Tupikova, Sergey I. Vinitsky: A Symbolic-Numerical Algorithm for Solving the Eigenvalue Problem for a Hydrogen Atom in the Magnetic Field: Cylindrical Coordinates. CASC 2007: 118-133
29	EE	Vladimir P. Gerdt, Arsen Khvedelidze, Yuri Palii: Deducing the Constraints in the Light-Cone SU (3) Yang-Mills Mechanics Via Gröbner Bases. CASC 2007: 145-159
28	EE	Sergey I. Vinitsky, Vladimir P. Gerdt, A. A. Gusev, Michael S. Kaschiev, Vitaly Rostovtsev, V. N. Samoilov, T. V. Tupikova, Ochbadrakh Chuluunbaatar: A symbolic-numerical algorithm for the computation of matrix elements in the parametric eigenvalue problem. Programming and Computer Software 33(2): 105-116 (2007)
27	EE	Vladimir P. Gerdt, Yuri A. Blinkov: On selection of nonmultiplicative prolongations in computation of Janet bases. Programming and Computer Software 33(3): 147-153 (2007)
2006
26	EE	Alexander Gusev, Vladimir P. Gerdt, Michail S. Kaschiev, Vitaly Rostovtsev, Valentin Samoylov, Tatyana Tupikova, Sergey I. Vinitsky: A Symbolic-Numerical Algorithm for Solving the Eigenvalue Problem for a Hydrogen Atom in Magnetic Field. CASC 2006: 205-218
25	EE	Vladimir P. Gerdt: Groebner Bases Applied to Systems of Linear Difference Equations CoRR abs/cs/0611041: (2006)
24	EE	Vladimir P. Gerdt, Yuri A. Blinkov, Vladimir V. Mozzhilkin: Gröbner Bases and Generation of Difference Schemes for Partial Differential Equations CoRR abs/math/0605334: (2006)
23	EE	Sergey I. Vinitsky, Vladimir P. Gerdt, Alexander Gusev, Michail S. Kaschiev, V. A. Rostovtsev, V. N. Samoilov, T. V. Tupikova, Yoshio Uwano: Symbolic algorithm for factorization of the evolution operator of the time-dependent Schrödinger equation. Programming and Computer Software 32(2): 103-113 (2006)
22	EE	Vladimir P. Gerdt, D. A. Yanovich: Effectiveness of involutive criteria in computation of polynomial Janet bases. Programming and Computer Software 32(3): 134-138 (2006)
2005
21	EE	Vladimir P. Gerdt, Yuri A. Blinkov: Janet-Like Monomial Division. CASC 2005: 174-183
20	EE	Vladimir P. Gerdt, Yuri A. Blinkov: Janet-Like Gröbner Bases. CASC 2005: 184-195
19	EE	Alexander Gusev, Vladimir P. Gerdt, Michail S. Kaschiev, Vitaly Rostovtsev, Valentin Samoylov, Tatyana Tupikova, Yoshio Uwano, Sergey I. Vinitsky: Symbolic-Numerical Algorithm for Solving the Time-Dependent Schrödinger Equation by Split-Operator Method. CASC 2005: 244-258
18	EE	Vladimir P. Gerdt, Daniel Robertz: A Maple Package for Computing Groebner Bases for Linear Recurrence Relations CoRR abs/cs/0509070: (2005)
17	EE	Vladimir P. Gerdt, D. A. Yanovich: Parallel computation of Janet and Gröbner bases over rational numbers. Programming and Computer Software 31(2): 73-80 (2005)
2003
16	EE	Vladimir P. Gerdt, D. A. Yanovich: Implementation of the FGLM Algorithm and Finding Roots of Polynomial Involutive Systems. Programming and Computer Software 29(2): 72-74 (2003)
15	EE	Giuseppa Carrà Ferro, Vladimir P. Gerdt: Improved Kolchin-Ritt Algorithm. Programming and Computer Software 29(2): 83-87 (2003)
2002
14	EE	Vladimir P. Gerdt: On an Algorithmic Optimization in Computation of Involutive Bases. Programming and Computer Software 28(2): 62-65 (2002)
2001
13	EE	Vladimir P. Gerdt, D. A. Yanovich, Yuri A. Blinkov: Fast Search for the Janet Divisor. Programming and Computer Software 27(1): 22-24 (2001)
1997
12	EE	Vladimir P. Gerdt, Vladimir V. Kornyak: An algorithm for analysis of the structure of finitely presented Lie algebras. Discrete Mathematics & Theoretical Computer Science 1(2): 217-228 (1997)
1996
11		Vladimir P. Gerdt, Vladimir V. Kornyak: Construction of Finitely Presented Lie Algebras and Superalgebras. J. Symb. Comput. 21(3): 337-349 (1996)
1991
10	EE	Vladimir P. Gerdt, N. V. Khutornoy, A. Yu. Zharkov: Lie-Bäcklund Symmetries of Coupled Nonlinear Schrödinger Equations. ISSAC 1991: 313-314
9		Vladimir P. Gerdt: Computer Algebra Tools for Higher Symmetry Analysis of Nonlinear Evolution Equations. Programming Environments for High-Level Scientific Problem Solving 1991: 107-117
1990
8	EE	Vladimir P. Gerdt, A. Yu. Zharkov: Computer Generation of Necessary Integrability Conditions for Polynomial-Nonlinear Evolution Systems. ISSAC 1990: 250-254
7	EE	Vladimir P. Gerdt, N. V. Khutornoy, A. Yu. Zharkov: Solving Algebraic Systems which Arise as Necessary Integrability Conditions for Polynomial-Nonlinear Evolution Equations. ISSAC 1990: 299
6		Vladimir P. Gerdt, A. Yu. Zharkov: Computer Classification of Integrable Coupled KdV-like Systems. J. Symb. Comput. 10(2): 203-208 (1990)
1987
5		R. N. Fedorova, Vladimir P. Gerdt, N. N. Govorun, V. P. Shirikov: Computer algebra in physical research of Joint Institute for Nuclear Research. EUROCAL 1987: 1-10
4		Vladimir P. Gerdt, N. A. Kostov, Z. T. Kostova: Computer algebra and computation of Puiseux expansions of algebraic functions. EUROCAL 1987: 206-207
3		Vladimir P. Gerdt, A. B. Shabat, S. I. Svinolupov, A. Yu. Zharkov: Computer algebra applications for investigating integrability of nonlinear evolution systems. EUROCAL 1987: 81-92
2		Vladimir P. Gerdt, A. Yu. Zharkov: Computer classification of integrable seventh order MKdV-like equations. EUROCAL 1987: 93-94
1985
1		Vladimir P. Gerdt, A. B. Shvachka, A. Yu. Zharkov: Computer Algebra Application for Classification of Integrable Non-Linear Evolution Equations. J. Symb. Comput. 1(1): 101-107 (1985)

Coauthor Index

1 A. G. Abrashkevich [31]

2 Yuri A. Blinkov [13] [20] [21] [24] [27]

3 Ochbadrakh Chuluunbaatar [28] [30] [31]

4 R. N. Fedorova [5]

5 Giuseppa Carrà Ferro [15]

6 N. N. Govorun [5]

7 A. A. Gusev [28] [31]

8 Alexander Gusev [19] [23] [26] [30]

9 Michael S. Kaschiev [28]

10 Michail S. Kaschiev [19] [23] [26] [30] [31]

11 N. V. Khutornoy [7] [10]

12 Arsen Khvedelidze [29]

13 Vladimir V. Kornyak [11] [12]

14 N. A. Kostov [4]

15 Z. T. Kostova [4]

16 Vladimir V. Mozzhilkin [24]

17 Yuri Palii [29]

18 Daniel Robertz [18]

19 Vitaly Rostovtsev (V. A. Rostovtsev) [19] [23] [26] [28] [30] [31]

20 V. N. Samoilov [23] [28]

21 Valentin Samoylov [19] [26] [30]

22 V. V. Serov [31]

23 A. B. Shabat [3]

24 V. P. Shirikov [5]

25 A. B. Shvachka [1]

26 S. I. Svinolupov [3]

27 T. V. Tupikova [23] [28]

28 Tatyana Tupikova [19] [26] [30]

29 Yoshio Uwano [19] [23]

30 Sergey I. Vinitsky [19] [23] [26] [28] [30] [31]

31 D. A. Yanovich [13] [16] [17] [22]

32 A. Yu. Zharkov [1] [2] [3] [6] [7] [8] [10]

33 Mikhail V. Zinin [32]

Colors in the list of coauthors

1	A. G. Abrashkevich	[31]
2	Yuri A. Blinkov	[13] [20] [21] [24] [27]
3	Ochbadrakh Chuluunbaatar	[28] [30] [31]
4	R. N. Fedorova	[5]
5	Giuseppa Carrà Ferro	[15]
6	N. N. Govorun	[5]
7	A. A. Gusev	[28] [31]
8	Alexander Gusev	[19] [23] [26] [30]
9	Michael S. Kaschiev	[28]
10	Michail S. Kaschiev	[19] [23] [26] [30] [31]
11	N. V. Khutornoy	[7] [10]
12	Arsen Khvedelidze	[29]
13	Vladimir V. Kornyak	[11] [12]
14	N. A. Kostov	[4]
15	Z. T. Kostova	[4]
16	Vladimir V. Mozzhilkin	[24]
17	Yuri Palii	[29]
18	Daniel Robertz	[18]
19	Vitaly Rostovtsev (V. A. Rostovtsev)	[19] [23] [26] [28] [30] [31]
20	V. N. Samoilov	[23] [28]
21	Valentin Samoylov	[19] [26] [30]
22	V. V. Serov	[31]
23	A. B. Shabat	[3]
24	V. P. Shirikov	[5]
25	A. B. Shvachka	[1]
26	S. I. Svinolupov	[3]
27	T. V. Tupikova	[23] [28]
28	Tatyana Tupikova	[19] [26] [30]
29	Yoshio Uwano	[19] [23]
30	Sergey I. Vinitsky	[19] [23] [26] [28] [30] [31]
31	D. A. Yanovich	[13] [16] [17] [22]
32	A. Yu. Zharkov	[1] [2] [3] [6] [7] [8] [10]
33	Mikhail V. Zinin	[32]