FCA2: Correspondence Analysis for 2-way tables
In PTAk: Principal Tensor Analysis on k Modes
FCA2 R Documentation
Correspondence Analysis for 2-way tables
Description
Performs a particular SVDgen data as a ratio Observed/Expected
under complete independence with metrics as margins of the
contingency table (in frequencies).
Usage
FCA2(X, nbdim =NULL, minpct = 0.01, smoothing = FALSE,
smoo = rep(list(function(u) ksmooth(1:length(u), u, kernel = "normal",
bandwidth = 3, x.points = (1:length(u)))$y), length(dim(X))),
verbose = getOption("verbose"), file = NULL, modesnam = NULL,
addedcomment = "", chi2 = FALSE, E = NULL, ...)
Arguments
X
a matrix table of positive values
nbdim
a number of dimension to retain, if NULL the default value of maximum possible number of dimensions is kept
minpct
numerical 0-100 to control of computation of future solutions at this level and below
smoothing
see SVDgen
smoo
see SVDgen
verbose
control printing
file
output printed at the prompt if NULL, or printed in the given ‘file’
modesnam
character vector of the names of the modes, if NULL "mo 1"
..."mo k"
addedcomment
character string printed if printt after the title of the analysis
chi2
print the chi2 information when computing margins in FCAmet
E
if not NULL is a matrix with the same dimensions as X with the same margins
...
any other arguments passed to SVDGen or other functions
Details
Gives the SVD-2modes decomposition of the 1+\chi^2/N of
the contingency table of full count N=\sum X_{ij},
i.e. complete independence + lack of independence (including marginal
independences) as shown for example in Lancaster(1951)(see reference
in Leibovici(1993 or 2000)). Noting P=X/N, a SVD of the
(3)-uple is done, that is :
((D_I^{-1} \otimes D_J^{-1})..P, \quad D_I, \quad D_J)
where the metrics are diagonals of the corresponding margins. For
full description of arguments see PTAk. If E
is not NULL an FCAk-modes relatively to a model is
done (see Escoufier(1985) and therin reference
Escofier(1984) for a 2-way derivation), e.g. for a three way contingency table
k=3 the 4-tuple data and metrics is:
((D_I^{-1} \otimes D_J^{-1} \otimes D_K^{-1})(P-E), \quad D_I, \quad D_J, \quad D_K)
If E was the complete independence (product of the margins)
then this would give an AFCk but without looking at the
marginal dependencies (i.e. for a three way table no two-ways lack of
independence are looked for).
Value
a FCA2 (inherits FCAk and PTAk) object
Author(s)
Didier G. Leibovici
References
Escoufier Y (1985) L'Analyse des correspondances : ses
propriétés et ses extensions. ISI 45th session Amsterdam.
Leibovici D(1993) Facteurs à Mesures Répétées et Analyses Factorielles :
applications à un suivi Epidémiologique. Université de Montpellier
II. PhD Thesis in Mathématiques et Applications (Biostatistiques).
Leibovici D (2000) Multiway Multidimensional Analysis for
Pharmaco-EEG Studies.http://www.fmrib.ox.ac.uk/analysis/techrep/tr00dl2/tr00dl2.pdf
Leibovici DG (2010) Spatio-temporal Multiway Decomposition using Principal Tensor Analysis on k-modes:the R package PTAk. Journal of Statistical Software, 34(10), 1-34. \Sexpr[results=rd]{tools:::Rd_expr_doi("10.18637/jss.v034.i10")}
Leibovici DG and Birkin MH (2013) Simple, multiple and multiway correspondence analysis applied to spatial census-based population microsimulation studies using R. NCRM Working Paper. NCRM-n^o 07/13, Id-3178 https://eprints.ncrm.ac.uk/id/eprint/3178
See Also
PTAk, FCAmet, summary.FCAk
Examples
data(crimerate)
cri.FCA2 <- FCA2(crimerate)
summary(cri.FCA2)
plot(cri.FCA2, mod = c(1,2), nb1 = 2, nb2 = 3) # unscaled
plot(cri.FCA2, mod = c(1,2), nb1 = 2, nb2 = 3, coefi =
list(c(0.130787,0.130787),c(0.104359,0.104359)) )# symmetric-map biplot
CTR(cri.FCA2, mod = 1, solnbs = 2:4)
CTR(cri.FCA2, mod = 2, solnbs = 2:4)
COS2(cri.FCA2, mod = 2, solnbs = 2:4)
PTAk documentation built on March 31, 2023, 5:17 p.m.
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| FCA2 | R Documentation |
Correspondence Analysis for 2-way tables
Description
Performs a particular SVDgen data as a ratio Observed/Expected
under complete independence with metrics as margins of the
contingency table (in frequencies).
Usage
FCA2(X, nbdim =NULL, minpct = 0.01, smoothing = FALSE,
smoo = rep(list(function(u) ksmooth(1:length(u), u, kernel = "normal",
bandwidth = 3, x.points = (1:length(u)))$y), length(dim(X))),
verbose = getOption("verbose"), file = NULL, modesnam = NULL,
addedcomment = "", chi2 = FALSE, E = NULL, ...)Arguments
X |
a matrix table of positive values |
nbdim |
a number of dimension to retain, if |
minpct |
numerical 0-100 to control of computation of future solutions at this level and below |
smoothing |
see |
smoo |
see |
verbose |
control printing |
file |
output printed at the prompt if |
modesnam |
character vector of the names of the modes, if |
addedcomment |
character string printed if |
chi2 |
print the chi2 information when computing margins in |
E |
if not |
... |
any other arguments passed to SVDGen or other functions |
Details
Gives the SVD-2modes decomposition of the 1+\chi^2/N of
the contingency table of full count N=\sum X_{ij},
i.e. complete independence + lack of independence (including marginal
independences) as shown for example in Lancaster(1951)(see reference
in Leibovici(1993 or 2000)). Noting P=X/N, a SVD of the
(3)-uple is done, that is :
((D_I^{-1} \otimes D_J^{-1})..P, \quad D_I, \quad D_J)
where the metrics are diagonals of the corresponding margins. For
full description of arguments see PTAk. If E
is not NULL an FCAk-modes relatively to a model is
done (see Escoufier(1985) and therin reference
Escofier(1984) for a 2-way derivation), e.g. for a three way contingency table
k=3 the 4-tuple data and metrics is:
((D_I^{-1} \otimes D_J^{-1} \otimes D_K^{-1})(P-E), \quad D_I, \quad D_J, \quad D_K)
If E was the complete independence (product of the margins)
then this would give an AFCk but without looking at the
marginal dependencies (i.e. for a three way table no two-ways lack of
independence are looked for).
Value
a FCA2 (inherits FCAk and PTAk) object
Author(s)
Didier G. Leibovici
References
Escoufier Y (1985) L'Analyse des correspondances : ses propriétés et ses extensions. ISI 45th session Amsterdam.
Leibovici D(1993) Facteurs à Mesures Répétées et Analyses Factorielles : applications à un suivi Epidémiologique. Université de Montpellier II. PhD Thesis in Mathématiques et Applications (Biostatistiques).
Leibovici D (2000) Multiway Multidimensional Analysis for Pharmaco-EEG Studies.http://www.fmrib.ox.ac.uk/analysis/techrep/tr00dl2/tr00dl2.pdf
Leibovici DG (2010) Spatio-temporal Multiway Decomposition using Principal Tensor Analysis on k-modes:the R package PTAk. Journal of Statistical Software, 34(10), 1-34. \Sexpr[results=rd]{tools:::Rd_expr_doi("10.18637/jss.v034.i10")}
Leibovici DG and Birkin MH (2013) Simple, multiple and multiway correspondence analysis applied to spatial census-based population microsimulation studies using R. NCRM Working Paper. NCRM-n^o 07/13, Id-3178 https://eprints.ncrm.ac.uk/id/eprint/3178
See Also
PTAk, FCAmet, summary.FCAk
Examples
data(crimerate)
cri.FCA2 <- FCA2(crimerate)
summary(cri.FCA2)
plot(cri.FCA2, mod = c(1,2), nb1 = 2, nb2 = 3) # unscaled
plot(cri.FCA2, mod = c(1,2), nb1 = 2, nb2 = 3, coefi =
list(c(0.130787,0.130787),c(0.104359,0.104359)) )# symmetric-map biplot
CTR(cri.FCA2, mod = 1, solnbs = 2:4)
CTR(cri.FCA2, mod = 2, solnbs = 2:4)
COS2(cri.FCA2, mod = 2, solnbs = 2:4)
R Package Documentation
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Note that we can't provide technical support on individual packages. You should contact the package authors for that.
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