cpt.2d(x, crystal.names=NULL, basis="block.cpt.2d", cost.fun="threshold", n.levels=NULL, taper="poly2", dct.type=2, boundary="periodic", n.taper=NULL, scale=NULL, thresh=NULL, p=1, prob=.75) icpt.2d(x)
cpt.2d
, an image or matrix. Row length must be
divisible by
2^(n.levels)
and
column length must be divisible by
2^(n.levels)
.
If mean(x) != 0, should de-mean first (see below). For
icpt.2d
,
an object of
cpt.2d
.
"cj.h-cj.v"
.
where
j
is an integer giving the level and
h
is an integer from
0
to
2^j-1
giving the horizontal block number and
v
is an integer from
0
to
2^j-1
giving the vertical block number.
If
crystal.names
is supplied, then
basis
is ignored.
"best.basis"
or
"block.cpt.2d"
.
See the respective help files for details.
"entropy"
,
"threshold"
,
"sure"
, and "
lp
" are available.
Only used for
"best.basis"
.
See
cp.costs.2d
for details.
x
is divided into
2^(2*n.levels)
nrow(x)/2^n.levels
by
ncol(x)/2^n.levels
blocks. For
"best.basis"
,
n.levels
gives the blocking factor for the finest level.
When both
crystal.names
and
basis
are missing,
2D subband basis of
n.levels
is computed.
If
n.levels
is bigger than
ml
, where
ml
is the maximum possible level,
computed from the
max.level
function, then
n.levels
is set to
ml
and
a warning message is given.
2
or
4
indicating which of DCT-II or DCT-IV should be used.
See the function
dct
for details.
"boxcar", "poly1", "poly2", "poly3", "poly4", "poly5"
, or
"trig"
.
See the function
cp.table
for details.
"cp.reflect", "periodic"
and
"zero"
.
See the function
cp.table
for details.
2*n.taper
.
By default,
n.taper
is set to
length(x)/2^(n.level+1)
,
which is the maximum possible length at the finest blocking level.
cost.fun
.
See the function
cp.costs.2d
for details.
(0,2]
giving the degree of the
lpnorm when
cost.fun
is
"lp"
.
See the function
cp.costs.2d
for details.
cost.fun
is
"threshold"
or
"sure"
.
See the function
cp.costs.2d
for details.
(0,1)
used to
compute the threshold for when
cost.fun
is
"threshold"
.
See the function
cp.costs.2d
for details.
cpt.2d
returns an object of class
cpt.2d
, inheriting from
the class
crystal.matrix
.
The object is a matrix of the same size as
x
with crystal names as an
attribute.
icpt.2d
returns an image if
x
is an object of class
cpt.2d
.
The default optional arguments
n.levels, taper, dct.type, boundary
can be reset using function
wavelet.options
, see
wavelet.options
for details.
The algorithms for the taper functions are given in the
S+WAVELETS User's Manual,
in the section "Cosine Packet Algorithms". They are discussed in
greater depth in Wickerhauser (1994).
Wickerhauser, M. V. (1994). Adapted Wavelet Analysis from Theory to Software. A. K. Peters Ltd, Wellesley, MA.
xx <- phone-mean(phone) par(mfrow=c(1,2)) image(xx) bb2 <- crystal.names("block.dct.2d", 2) cc2 <- cpt.2d(xx, crystal.names=bb2, taper="poly2") thresh <- rep(3.7, 16) ss2 <- shrink(cc2, thresh) zz <- reconstruct(ss2) image(zz)