Theory of optimal blocking of $2^{n-m}$ designs
Chen, Hegang ; Cheng, Ching-Shui
Ann. Statist., Tome 27 (1999) no. 4, p. 1948-1973 / Harvested from Project Euclid
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In this paper, we define the blocking wordlength pattern of a blocked fractional factorial design by combining the wordlength patterns of treatment-defining words and block-defining words. The concept of minimum aberration can be defined in terms of the blocking wordlength pattern and provides a good measure of the estimation capacity of a blocked fractional factorial design. By blending techniques of coding theory and finite projective geometry, we obtain combinatorial identities that govern the relationship between the blocking wordlength pattern of a blocked $2^{n-m}$ design and the split wordlength pattern of its blocked residual design. Based on these identities, we establish general rules for identifying minimum aberration blocked $2^{n-m}$ designs in terms of their blocked residual designs. Using these rules, we study the structures of some blocked $2^{n-m}$ designs with minimum aberration.
Publié le : 1999-12-14
Classification:  Fractional factorial design,  linear mode,  MacWilliams identities,  resolution,  projective geometry,  weight distribution,  wordlength pattern,  62K15,  62K05 
@article{1017939246,
     author = {Chen, Hegang and Cheng, Ching-Shui},
     title = {Theory of optimal blocking of $2^{n-m}$ designs},
     journal = {Ann. Statist.},
     volume = {27},
     number = {4},
     year = {1999},
     pages = { 1948-1973},
     language = {en},
     url = {http://dml.mathdoc.fr/item/1017939246}
}

Chen, Hegang; Cheng, Ching-Shui. Theory of optimal blocking of $2^{n-m}$ designs. Ann. Statist., Tome 27 (1999) no. 4, pp.  1948-1973. http://gdmltest.u-ga.fr/item/1017939246/