Numerical analysis and systems theory

Stephen Campbell

International Journal of Applied Mathematics and Computer Science (2001)

  • Volume: 11, Issue: 5, page 1025-1033
  • ISSN: 1641-876X

Abstract

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The area of numerical analysis interacts with the area of control and systems theory in a number of ways, some of which are widely recognized and some of which are not fully appreciated or understood. This paper will briefly discuss some of these areas of interaction and place the papers in this volume in context.

How to cite

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Campbell, Stephen. "Numerical analysis and systems theory." International Journal of Applied Mathematics and Computer Science 11.5 (2001): 1025-1033. <http://eudml.org/doc/207543>.

@article{Campbell2001,
abstract = {The area of numerical analysis interacts with the area of control and systems theory in a number of ways, some of which are widely recognized and some of which are not fully appreciated or understood. This paper will briefly discuss some of these areas of interaction and place the papers in this volume in context.},
author = {Campbell, Stephen},
journal = {International Journal of Applied Mathematics and Computer Science},
keywords = {systems theory; numerical analysis; control},
language = {eng},
number = {5},
pages = {1025-1033},
title = {Numerical analysis and systems theory},
url = {http://eudml.org/doc/207543},
volume = {11},
year = {2001},
}

TY - JOUR
AU - Campbell, Stephen
TI - Numerical analysis and systems theory
JO - International Journal of Applied Mathematics and Computer Science
PY - 2001
VL - 11
IS - 5
SP - 1025
EP - 1033
AB - The area of numerical analysis interacts with the area of control and systems theory in a number of ways, some of which are widely recognized and some of which are not fully appreciated or understood. This paper will briefly discuss some of these areas of interaction and place the papers in this volume in context.
LA - eng
KW - systems theory; numerical analysis; control
UR - http://eudml.org/doc/207543
ER -

References

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  1. Alexandrov N.M. and Hussaini M.Y. (Eds) (1997): Multi Disciplinary Design Optimization: State of the Art. — Philadelphia: SIAM. 
  2. Antoulas A.C. and Sorensen D.C. (2001): Approximation in large-scale dynamical systems: An overview. — this issue. 
  3. Benner P., Quintana-Orti E.S. and Quintana-Orti G. (2001): Efficient numerical algorithms for balanced stochastic truncation. — this issue. Zbl1008.93014
  4. Betts J.T. (2001): Practical Methods for Optimal Control Using Nonlinear Programming. — Philadelphia: SIAM. Zbl0995.49017
  5. Betts J.T., Biehn N., Campbell S.L. and Huffman W.P. (2000): Convergence of nonconvergent IRK discretizations of optimal control problems. — Proc. IMACS 2000, Lausanne (CD- ROM). Zbl1009.49025
  6. Betts J., Biehn N. and Campbell S.L. (2001): Convergence of nonconvergent IRK discretizations of optimal control problems with state inequality constraints. — preprint. Zbl1009.49025
  7. Borggaard J.T., Burns J., Cliff E. and Schreck S. (1998): Computational Methods in Optimal Design and Control. — Boston: Birkhäuser. 
  8. Brenan K.E., Petzold L.R. and Campbell S.L. (1996): Numerical Solution of Initial Value Problems in Differential Algebraic Equations. — Philadelphia: SIAM. Zbl0844.65058
  9. Bunch J.R., Le Borne R.C. and Proudler I.K. (2001): Measuring and maintaining consistency: A hybrid FTF algorithm. — this issue. Zbl1001.93054
  10. Calvetti D., Lewis B. and Reichel L. (2001): On the choice of subspace for iterative methods for linear discrete ill-posed systems. — this issue. Zbl0994.65043
  11. Campbell S., Biehn N., Jay L. and Westbrook T. (2000): Some comments on DAE theory for IRK methods and trajectory optimization. — J. Comp. Appl. Math., Vol.120, No.1–2, pp.109–131. Zbl0956.65070
  12. Chu E.K. (2001): Optimization and pole assignment in control system design. — this issue. 
  13. Datta B.N. (1999): Applied and Computational Control, Signals, and Circuits. — Boston: Birkhäuser. Zbl0934.00020
  14. Enqvist P. (2001): A homotopy approach to rational covariance extension with degree constraint. — this issue. 
  15. Golub G.H. and Dooren P.V. (Eds.) (1991): Numerical Linear Algebra, Digital Signal Processing and Parallel Algorithms. — Berlin: Springer-Verlag. 
  16. Gomez C. (Ed.) (1999): Engineering and Scientific Computing with SciLab. — Boston: Birkhauser. Zbl0949.68606
  17. Gustafsson K. (1993): Object-oriented implementation of software for solving ordinary differential equations. — Sci. Prog., Vol.2, No.4, pp.217–225. 
  18. Gustafsson K. (1994): Control-theoretic techniques for stepsize selection in implicit Runge- Kutta methods. — ACM Trans. Math. Softw., Vol.20, No.4, pp.496–517. Zbl0888.65096
  19. Gustafsson K., Lundh M. and Söderlind G. (1988): A PI stepsize control for the numerical integration of ordinary differential equations. — BIT, Vol.28, No.2, pp.270–287. Zbl0645.65039
  20. Gustafsson K. and Söderlind G. (1997): Control Strategies for the Iterative Solution of Nonlinear Equations in ODE Solvers. — SIAM J. Sci. Stat. Comp., Vol.18, No.1, pp.23–40. Zbl0867.65035
  21. Hall G. and Usman A. (2001): Modified order and stepsize strategies in Adams codes. — J. Comp. Appl. Math., to appear. Zbl0941.65076
  22. Li J. and White J. (2001): Reduction of large circuit models via low rank approximate Gramians. — this issue. 
  23. Mokhtari M. and Marie M. (2000): Engineering applications of MATLAB 5.3 and Simulink 3. — Springer-Verlag. 
  24. van Overschee P. and de Moor B. (1996): Subspace Identification for Linear System Theory, Implementation, Applications. — Boston: Kluwer. Zbl0888.93001
  25. Pichler F., Moreno-Diaz R. and Albrecht R. (Eds.) (2000): Computer Aided Systems Theory—EUROCAST 99. — Berlin: Springer-Verlag. 
  26. Pytlak R. (1999): Numerical Methods for Optimal Control Problems with State Constraints. — Berlin: Springer. Zbl0928.49002
  27. Söderlind G. (1998): The automatic control of numerical integration. — CWI Quart., Vol.11, No.1, pp.55–74. Zbl0922.65063
  28. Usman A. and Hall G. (1998): Equilibrium states for predicter-corrector methods. — J. Comp. Appl. Math., Vol.89, No.2, pp.275–308. Zbl0905.65088
  29. Varga A. (2001): Computing generalized inverse systems using matrix pencil methods. — this issue. Zbl1031.93071

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