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$C^{1}$ approximations of inertial manifolds via finite differences

Author(s): Kazuo Kobayasi
Journal: Proc. Amer. Math. Soc. 127 (1999), 1143-1150.
MSC (1991): Primary 47H20; Secondary 35K55
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Abstract: We construct an inertial manifold for the evolution equation as a limit of the inertial manifolds for the difference approximations of the Trotter-Kato type and show that this limit is taken in a $C^{1}$ topology.

References:

1.
S.N. Chow and K. Lu, Invariant manifolds for flows in Banach spaces, J.Differential Equations 74 (1988), 285-317. MR 89h:58163

2.
S.N. Chow, K. Lu and G.R. Sell, Smoothness of inertial manifolds, J. Math. Anal. Appl. 169 (1992), 283-321. MR 94a:58172

3.
F. Demengel and J.M. Ghidaglia, Inertial manifolds for partial differential equations under time-discretization: Existence and applications, J. Math. Anal. Appl. 155 (1991), 177-225. MR 92e:35079

4.
C. Foias, M.S. Jolly, I.G. Kevrekidis and E.S. Titi, Dissipativity of numerical schemes, Nonlinearity 4 (1991), 591-613. MR 92f:65099

5.
C. Foias, G. Sell and R. Temam, Inertial manifolds for nonlinear evolutional equations, J. Differential Equations 73 (1988), 309-353.

6.
C. Foias and E.S. Titi, Determining nodes, finite difference schemes and inertial manifolds, Nonlinearity 4 (1991), 135-153. MR 92a:65241

7.
E. Hille and R.S. Phillips, Functional Analysis and Semi-Groups, Amer. Math. Soc., Providence, RI, 1957. MR 54:11077; MR 19:664d

8.
M.S. Hirsch, C.C. Pugh and M. Shub, Invariant Manifolds, Lecture Notes in Mathematics Vol.583, Springer-Verlag, New York, 1977. MR 58:18595

9.
D.A. Jones and A.M. Stuart, Attractive invariant manifolds under approximation. Inertial manifolds, J. Differential Equations 123 (1995), 588-637. MR 96j:34110

10.
D.A. Jones and E.S. Titi, $C^{1}$ approximation of inertial manifolds for dissipative nonlinear equations, J. Differential Equations 127 (1996), 54-86. MR 97g:58154

11.
K. Kobayasi, Convergence and approximation of inertial manifolds for evolution equations, Differential and Integral Equations 8 (1995), 1117-1134. MR 96c:34131

12.
K. Kobayasi, Inertial manifolds for discrete approximations of evolution equations: Convergence and approximations, Advances in Math. Sci. Appl. 3 (1993/1994), 161-189. MR 95d:34107

13.
A. Pazy, Semigroups of linear operators and applications to partial differential equations, Applied Mathematical Sciences 44, Springer-Verlag, New York, 1983. MR 85g:47061

14.
V.A. Pliss and G.R. Sell, Perturbations of attractors of differential equations, J. Differential Equations 92 (1991), 100-124. MR 92f:58094

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Additional Information:

Kazuo Kobayasi
Affiliation: Department of Mathematics, School of Education, Waseda University, 1-6-1 Nishi-Waseda, Shinjuku-Ku, Tokyo 169-8050, Japan
Email: kzokoba@mn.waseda.ac.jp

DOI: 10.1090/S0002-9939-99-04927-8
PII: S 0002-9939(99)04927-8
Keywords: Inertial manifold, long-time behavior, finite dynamical system, evolution equation
Received by editor(s): July 29, 1997
Additional Notes: This research was partially supported by Waseda University Grant for special Research Projects 97A-81.
Communicated by: David R. Larson
Copyright of article: Copyright 1999, American Mathematical Society

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