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MR ZblNeuman, František. Stationary groups of linear differential equations. Czechoslovak Mathematical Journal, Tome 34 (1984) no. 4, pp. 645-663. doi: 10.21136/CMJ.1984.101990
@article{10_21136_CMJ_1984_101990,
author = {Neuman, Franti\v{s}ek},
title = {Stationary groups of linear differential equations},
journal = {Czechoslovak Mathematical Journal},
pages = {645--663},
year = {1984},
volume = {34},
number = {4},
doi = {10.21136/CMJ.1984.101990},
mrnumber = {764446},
zbl = {0573.34028},
language = {en},
url = {http://geodesic.mathdoc.fr/articles/10.21136/CMJ.1984.101990/}
}
TY - JOUR AU - Neuman, František TI - Stationary groups of linear differential equations JO - Czechoslovak Mathematical Journal PY - 1984 SP - 645 EP - 663 VL - 34 IS - 4 UR - http://geodesic.mathdoc.fr/articles/10.21136/CMJ.1984.101990/ DO - 10.21136/CMJ.1984.101990 LA - en ID - 10_21136_CMJ_1984_101990 ER -
[1] G. Blanton J. A. Baker: Iteration groups generated by $C^n$ functions. Archivum Math. (Brno), 18 (1982), 121-127. | MR
[2] O. Borůvka: Lineare Differentialtransformationen 2. Ordnung, VEB, Berlin 1967, English edition: Linear Differential Transformations of the Second Order, The English Univ. Press, London 1971.
[3] O. Borůvka: Sur une classe des groupes continus à un paramètre formés des functions réelles d'une variable. Ann. Polon Math. 42 (1982), 27-37. | MR
[4] G. H. Halphen: Mémoire sur la réduction des équations différentielles linéaires aux formes intégrables. In: Mémoires présentés par divers savants à l'académie des sciences de l'institut de France 28 (1884), 1-301.
[5] O. Hölder: Die Axiome der Quantität und die Lehre vom Masse. Ber. Verh. Sachs. Ges. Wiss. Leipzig, Math. Phys. Cl. 53 (1901), 1-64.
[6] Z. Hustý: Die Iteration homogener linearer Differentialgleichungen. Publ. Fac. Sci. Univ. J. E. Purkyne (Brno), 449 (1964), 23-56. | MR
[7] F. Neuman: Categorial approach to global transformations of the n-th order linear differential equations. Časopis Pěst. Mat. 102 (1977), 350-355. | MR | Zbl
[8] F. Neuman: On solutions of the vector functional equation $y(\xi (x))=f(x)·A·y(x)$. Aequationes Math. 16 (1977), 245-257. | DOI | MR
[9] F. Neuman: Criterion of global equivalence of linear differential equations. Proc. Roy. Soc. Edinburg, 97A (1984), 217-221. | MR | Zbl
[10] F. Neuman: A survey of global properties of linear differential equations of the n-th order. In: Ordinary and Partial Differential Equations, Proceedings, Dundee 1982, Lecture Notes in Mathematics 964, 548-563. | MR | Zbl
[11] J. Posluszny L.A. Rubel: The motion of an ordinary differential equation. J. Diff. Equations 34 (1979), 291-302. | DOI | MR
[12] P. Stāckel: Über Transformationen von Differentialgleichungen. J. Reine Angew. Math. 111 (1893), 290-302.
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