Régression trigonométrique et plans d'échantillonnage pour expériences simulées

A. Jourdan; D. Collombier

Revue de Statistique Appliquée (2001)

  • Volume: 49, Issue: 2, page 5-25
  • ISSN: 0035-175X

How to cite

top

Jourdan, A., and Collombier, D.. "Régression trigonométrique et plans d'échantillonnage pour expériences simulées." Revue de Statistique Appliquée 49.2 (2001): 5-25. <http://eudml.org/doc/106499>.

@article{Jourdan2001,
author = {Jourdan, A., Collombier, D.},
journal = {Revue de Statistique Appliquée},
keywords = {sampling designs; trigonometric regression; computer experiments; kriging; linear orthogonal arrays; prediction},
language = {fre},
number = {2},
pages = {5-25},
publisher = {Société française de statistique},
title = {Régression trigonométrique et plans d'échantillonnage pour expériences simulées},
url = {http://eudml.org/doc/106499},
volume = {49},
year = {2001},
}

TY - JOUR
AU - Jourdan, A.
AU - Collombier, D.
TI - Régression trigonométrique et plans d'échantillonnage pour expériences simulées
JO - Revue de Statistique Appliquée
PY - 2001
PB - Société française de statistique
VL - 49
IS - 2
SP - 5
EP - 25
LA - fre
KW - sampling designs; trigonometric regression; computer experiments; kriging; linear orthogonal arrays; prediction
UR - http://eudml.org/doc/106499
ER -

References

top
  1. Bailey R.A. (1985). Factorial design and abelian groups. Linear Algebra Appl.70, 349-368. Zbl0586.62123MR808552
  2. Bates R.A., Buck R.J., Riccomagno E., Wynn H.P. (1996). Experimental design and observation for large systems. J. Roy. Statist. Soc.B58, 77-94. Zbl0850.62627MR1379235
  3. Bates R.A., Riccomagno E., Schwabe R., Wynn H.P. (1998). Lattice and dual lattice in optimal experimental design for Fourier models. Comp. Statist. Data and Analysis28 N°3, 283-296. Zbl1042.62588MR1648841
  4. Christensen R. (1990). Linear models for multivariate, time series, and spatial data. Springer-Verlag. Zbl0717.62079MR1081535
  5. Collombier D. (1996). Plans d'expérience factoriels. Springer-Verlag, Berlin. MR1612775
  6. Currin C.T., Mitchell M., Morris M., Ylvisaker D. (1991). Bayesian prediction of deterministic functions, with applications to the design and analysis of computer experiments. J. Amer. Statist. Assoc.86, 953-963. MR1146343
  7. Henderson C.R. (1950). Estimation of genetic parameters. Ann. Math. Statist.21, 309-310 (abstract). 
  8. Johnson M.E., Moore L.M., Ylvisaker D. (1990). Minimax and maximin distance designs. J. Statist. Planning and Inference26, 131-148. MR1079258
  9. Kobilinsky A. (1990). Complex linear models and cyclic designs. LinearAlgebra Appl., 127, 227-282. Zbl0733.62080MR1048803
  10. Koehler J.R., Owen A.B. (1996). Computer experiments. Dans Ghosh S. et Rao C.R. : Handbook of statistics, 13 : Design and analysis of experiments. North-Holland, 261-308. Zbl0919.62089MR1492571
  11. Mardia K.V., Marshall R.J. (1984). Maximum likelihood estimation of models for reidual covariance in spatial regression. Biometrika71, 135- 146. Zbl0542.62079MR738334
  12. Matheron G. (1963). Principles of geostatistics. Economic Geology58, 1246-1266. 
  13. Park J.-S. (1994). Optimal latin hypercube designs for computer experimnts. J. Statist. Planning and Inference39, 95-111. Zbl0803.62067MR1266995
  14. Riccomagno E., Schwabe R., Wynn H.P. (1997). Lattice-based D-optimum design for Fourier regression. Annals of Statist.24, 2313-2327. Zbl0895.62081MR1604453
  15. Robinson G.K. (1991). That BLUP is a good thing : the estimation of random effects. Statist. Science.6, 15-51. Zbl0955.62500MR1108815
  16. Sacks J., Schiller S.B., Welch W.J. (1989). Designs for computer experiments. Technometrics31, 41-47. MR997669
  17. Sacks J., Welch W.J., Mitchell T.J., Wynn H.P. (1989). Design and analysis of computer experiments. Statist. Science4, 409-435. Zbl0955.62619MR1041765
  18. Serres J.P. (1967). Représentations linéaires des groupes finis. Herman, Paris. Zbl0223.20003MR232867
  19. Shewry M.C., Wynn H.P. (1987). Maximum entropy sampling. J. Appl. Statist.14, 165-170. 
  20. Tang B. (1994). A theorem for selecting OA-based latin hypercubes using a distance criterion. Comm. Statist. - Theory Meth.27, 2047- 2058. Zbl0825.62186MR1281902

NotesEmbed ?

top

You must be logged in to post comments.

To embed these notes on your page include the following JavaScript code on your page where you want the notes to appear.

Only the controls for the widget will be shown in your chosen language. Notes will be shown in their authored language.

Tells the widget how many notes to show per page. You can cycle through additional notes using the next and previous controls.

    
                

                
Note: Best practice suggests putting the JavaScript code just before the closing </body> tag.