hyperlogtGml2-class | R Documentation |
Hyperlog transformation parameterized according to Gating-ML 2.0.
hyperlogtGml2 is defined by the following function:
bound(hyperlog, boundMin, boundMax) = max(min(hyperlog,boundMax),boundMin))
where
hyperlog(x, T, W, M, A) = root(EH(y, T, W, M, A) - x)
and
EH
is defined as:
EH(y, T, W, M, A) = ae^{by} + cy - f
where
x is the value that is being transformed (an FCS dimension value). Typically, x is less than or equal to T, although the transformation function is also defined for x greater than T.
y is the result of the transformation.
T is greater than zero and represents the top of scale value.
M is greater than zero and represents the number of decades that the true logarithmic scale approached at the high end of the Hyperlog scale would cover in the plot range.
W is positive and not greater than half of M and represents the number of such decades in the approximately linear region.
A is the number of additional decades of negative data values to be included. A
shall be greater than or equal to -W
, and less than or equal to M
- 2W
root is a standard root finding algorithm (e.g., Newton's
method) that finds y such as B(y, T, W, M, A) = x
.
and a
,
b
, c
and f
are defined by means of T
, W
,
M
, A
, w
, x0
, x1
, x2
, e0
, ca
and fa
as:
w = W/(M+A)
x2 = A/(M+A)
x1 = x2 + w
x0 = x2 + 2*w
b = (M + A)*ln(10)
e0 = e^{b*x0}
ca= e0/w
fa = e^{b*x1} + ca*x1
a = T / (e^b + ca - fa)
c = ca * a
f = fa * a
In addition, if a boundary is defined by the boundMin and/or boundMax parameters, then the result of this transformation is restricted to the [boundMin,boundMax] interval. Specifically, should the result of the hyperlog function be less than boundMin, then let the result of this transformation be boundMin. Analogically, should the result of the hyperlog function be more than boundMax, then let the result of this transformation be boundMax. The boundMin parameter shall not be greater than the boundMax parameter.
.Data
Object of class function
.
T
Object of class numeric
– positive constant (top of scale value).
M
Object of class numeric
– positive constant (desired number of decades).
W
Object of class numeric
– positive constant that is not greater than half of M
(the number of such decades in the approximately linear region)
A
Object of class numeric
– a constant that is greater than or equal to -W, and also
less than or equal to M-2W. (A represents the number of additional decades of negative data values to
be included.)
parameters
Object of class "transformation"
– flow parameter to be transformed.
transformationId
Object of class "character"
– unique ID to reference the transformation.
boundMin
Object of class numeric
– lower bound of the transformation, default -Inf.
boundMax
Object of class numeric
– upper bound of the transformation, default Inf.
Objects can be created by calls to the constructor
hyperlogtGml2(parameter, T, M, W, A, transformationId, boundMin,
boundMax)
Class singleParameterTransform
, directly.
Class transform
, by class singleParameterTransform, distance 2.
Class transformation
, by class singleParameterTransform, distance 3.
Class characterOrTransformation
, by class singleParameterTransform, distance 4.
That hyperlogtGml2
transformation brings "reasonable" data
values to the scale of [0,1]
. The transformation is somewhat similar
to logicletGml2
. (See Gating-ML 2.0 for detailed comparison)
The hyperlog transformation object can be evaluated using the eval method by passing the data frame as an argument. The transformed parameters are returned as a matrix with a single column. (See example below)
Spidlen, J., Moore, W.
Gating-ML 2.0: International Society for Advancement of Cytometry (ISAC) standard for representing gating descriptions in flow cytometry. http://flowcyt.sourceforge.net/gating/20141009.pdf
hyperlog
, logicleTransform
,
transform-class
, transform
Other mathematical transform classes:
EHtrans-class
,
asinht-class
,
asinhtGml2-class
,
dg1polynomial-class
,
exponential-class
,
hyperlog-class
,
invsplitscale-class
,
lintGml2-class
,
logarithm-class
,
logicletGml2-class
,
logtGml2-class
,
quadratic-class
,
ratio-class
,
ratiotGml2-class
,
sinht-class
,
splitscale-class
,
squareroot-class
,
unitytransform-class
myDataIn <- read.FCS(system.file("extdata", "0877408774.B08",
package="flowCore"))
myHyperLg <- hyperlogtGml2(parameters = "FSC-H", T = 1023, M = 4.5,
W = 0.5, A = 0, transformationId="myHyperLg")
transOut <- eval(myHyperLg)(exprs(myDataIn))
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