Models: Model objective functions
In GladiaTOX: R Package for Processing High Content Screening data
Description
Usage
Arguments
Details
Value
Constant Model (cnst)
Gain-Loss Model (gnls)
Hill Model (hill)
Examples
Description
These functions take in the dose-response data and the model parameters, and
return a likelyhood value. They are intended to be optimized using
constrOptim in the gtoxFit function.
Usage
1
2
3
4
5
gtoxObjCnst(p, resp)
gtoxObjGnls(p, lconc, resp)
gtoxObjHill(p, lconc, resp)
Arguments
p
Numeric, the parameter values. See details for more information.
resp
Numeric, the response values
lconc
Numeric, the log10 concentration values
Details
These functions produce an estimated value based on the model and given
parameters for each observation. Those estimated values are then used with
the observed values and a scale term to calculate the log-likelyhood.
Let t(z,ν) be the Student's t-ditribution with ν degrees of
freedom, y[i] be the observed response at the ith
observation, and μ[i] be the estimated response at the
ith observation. We calculate z[i] as:
z[i] = (y[i] - μ[i])/e^σ
where σ is the scale term. Then the log-likelyhood is:
sum_{i=1}^{n} [ln(t(z[i], 4)) - σ]
Where n is the number of observations.
Value
The log-likelyhood.
Constant Model (cnst)
gtoxObjCnst calculates the likelyhood for a constant model at 0. The
only parameter passed to gtoxObjCnst by p is the scale term
σ. The constant model value μ[i] for the
ith observation is given by:
μ[i] = 0
Gain-Loss Model (gnls)
gtoxObjGnls calculates the likelyhood for a 5 parameter model as the
product of two Hill models with the same top and both bottoms equal to 0.
The parameters passed to gtoxObjGnls by p are (in order) top
(\mathit{tp}), gain log AC50 (\mathit{ga}), gain hill coefficient
(gw), loss log AC50 \mathit{la}, loss hill coefficient
\mathit{lw}, and the scale term (σ). The gain-loss model
value μ[i] for the ith observation is given
by:
g[i] = 1/(1 + 10^(ga - x[i])*gw)
l[i] = 1/(1 + 10^(x[i] - la)*lw)
μ[i] = tp*g[i]*l[i]
where x[i] is the log concentration for the ith
observation.
Hill Model (hill)
gtoxObjHill calculates the likelyhood for a 3 parameter Hill model
with the bottom equal to 0. The parameters passed to gtoxObjHill by
p are (in order) top (\mathit{tp}), log AC50
(\mathit{ga}), hill coefficient (\mathit{gw}), and the scale
term (σ). The hill model value μ[i] for the
ith observation is given by:
μ[i] = tp/(1 + 10^(ga - x[i])*gw)
where x[i] is the log concentration for the ith
observation.
Examples
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
## Load level 3 data for an assay endpoint ID
dat <- gtoxLoadData(lvl=3L, type="mc", fld="aeid", val=3L)
## Compute fitting log-likelyhood
gtoxObjCnst(1, dat$resp)
## Load level 3 data for an assay endpoint ID
dat <- gtoxLoadData(lvl=3L, type="mc", fld="aeid", val=2L)
## Compute fitting log-likelyhood
gtoxObjGnls(p=c(rep(0.5,5),1e-3), lconc=dat$logc, resp=dat$resp)
## Load level 3 data for an assay endpoint ID
dat <- gtoxLoadData(lvl=3L, type="mc", fld="aeid", val=3L)
## Compute fitting log-likelyhood
gtoxObjHill(c(rep(0,3), 1e-3), dat$logc, dat$resp)
GladiaTOX documentation built on Nov. 15, 2020, 2:07 a.m.
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Description Usage Arguments Details Value Constant Model (cnst) Gain-Loss Model (gnls) Hill Model (hill) Examples
Description
These functions take in the dose-response data and the model parameters, and
return a likelyhood value. They are intended to be optimized using
constrOptim in the gtoxFit function.
Usage
1 2 3 4 5 | gtoxObjCnst(p, resp)
gtoxObjGnls(p, lconc, resp)
gtoxObjHill(p, lconc, resp)
|
Arguments
p |
Numeric, the parameter values. See details for more information. |
resp |
Numeric, the response values |
lconc |
Numeric, the log10 concentration values |
Details
These functions produce an estimated value based on the model and given parameters for each observation. Those estimated values are then used with the observed values and a scale term to calculate the log-likelyhood.
Let t(z,ν) be the Student's t-ditribution with ν degrees of freedom, y[i] be the observed response at the ith observation, and μ[i] be the estimated response at the ith observation. We calculate z[i] as:
z[i] = (y[i] - μ[i])/e^σ
where σ is the scale term. Then the log-likelyhood is:
sum_{i=1}^{n} [ln(t(z[i], 4)) - σ]
Where n is the number of observations.
Value
The log-likelyhood.
Constant Model (cnst)
gtoxObjCnst calculates the likelyhood for a constant model at 0. The
only parameter passed to gtoxObjCnst by p is the scale term
σ. The constant model value μ[i] for the
ith observation is given by:
μ[i] = 0
Gain-Loss Model (gnls)
gtoxObjGnls calculates the likelyhood for a 5 parameter model as the
product of two Hill models with the same top and both bottoms equal to 0.
The parameters passed to gtoxObjGnls by p are (in order) top
(\mathit{tp}), gain log AC50 (\mathit{ga}), gain hill coefficient
(gw), loss log AC50 \mathit{la}, loss hill coefficient
\mathit{lw}, and the scale term (σ). The gain-loss model
value μ[i] for the ith observation is given
by:
g[i] = 1/(1 + 10^(ga - x[i])*gw)
l[i] = 1/(1 + 10^(x[i] - la)*lw)
μ[i] = tp*g[i]*l[i]
where x[i] is the log concentration for the ith observation.
Hill Model (hill)
gtoxObjHill calculates the likelyhood for a 3 parameter Hill model
with the bottom equal to 0. The parameters passed to gtoxObjHill by
p are (in order) top (\mathit{tp}), log AC50
(\mathit{ga}), hill coefficient (\mathit{gw}), and the scale
term (σ). The hill model value μ[i] for the
ith observation is given by:
μ[i] = tp/(1 + 10^(ga - x[i])*gw)
where x[i] is the log concentration for the ith observation.
Examples
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 | ## Load level 3 data for an assay endpoint ID
dat <- gtoxLoadData(lvl=3L, type="mc", fld="aeid", val=3L)
## Compute fitting log-likelyhood
gtoxObjCnst(1, dat$resp)
## Load level 3 data for an assay endpoint ID
dat <- gtoxLoadData(lvl=3L, type="mc", fld="aeid", val=2L)
## Compute fitting log-likelyhood
gtoxObjGnls(p=c(rep(0.5,5),1e-3), lconc=dat$logc, resp=dat$resp)
## Load level 3 data for an assay endpoint ID
dat <- gtoxLoadData(lvl=3L, type="mc", fld="aeid", val=3L)
## Compute fitting log-likelyhood
gtoxObjHill(c(rep(0,3), 1e-3), dat$logc, dat$resp)
|
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