fn_exp2_lin: Super-exponential linear function
In flexFitR: Flexible Non-Linear Least Square Model Fitting
View source: R/99_growth_curves.R
fn_exp2_lin R Documentation
Super-exponential linear function
Description
A piecewise function that models an initial exponential growth phase based on
a squared time difference, followed by a linear phase.
Usage
fn_exp2_lin(t, t1, t2, alpha, beta)
Arguments
t
A numeric vector of input values (e.g., time).
t1
The onset time of the response. The function is 0 for all values less than t1.
t2
The transition time between exponential and linear phases. Must be greater than t1.
alpha
The exponential growth rate controlling the curvature of the exponential phase.
beta
The slope of the linear phase after t2.
Details
f(t; t_1, t_2, \alpha, \beta) =
\begin{cases}
0 & \text{if } t < t_1 \\
e^{\alpha \cdot (t - t_1)^2} - 1 & \text{if } t_1 \leq t \leq t_2 \\
\beta \cdot (t - t_2) + \left(e^{\alpha \cdot (t_2 - t_1)^2} - 1\right) & \text{if } t > t_2
\end{cases}
The exponential section rises gradually from 0 at t1 and accelerates
as time increases. The linear section starts at t2 with a value
matching the end of the exponential phase, ensuring continuity but not
necessarily matching the derivative.
Value
A numeric vector of the same length as t, representing the function values.
Examples
library(flexFitR)
plot_fn(
fn = "fn_exp2_lin",
params = c(t1 = 35, t2 = 55, alpha = 1 / 600, beta = -1 / 80),
interval = c(0, 108),
n_points = 2000,
auc_label_size = 3
)
flexFitR documentation built on April 16, 2025, 5:09 p.m.
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View source: R/99_growth_curves.R
| fn_exp2_lin | R Documentation |
Super-exponential linear function
Description
A piecewise function that models an initial exponential growth phase based on a squared time difference, followed by a linear phase.
Usage
fn_exp2_lin(t, t1, t2, alpha, beta)
Arguments
t |
A numeric vector of input values (e.g., time). |
t1 |
The onset time of the response. The function is 0 for all values less than |
t2 |
The transition time between exponential and linear phases. Must be greater than |
alpha |
The exponential growth rate controlling the curvature of the exponential phase. |
beta |
The slope of the linear phase after |
Details
f(t; t_1, t_2, \alpha, \beta) =
\begin{cases}
0 & \text{if } t < t_1 \\
e^{\alpha \cdot (t - t_1)^2} - 1 & \text{if } t_1 \leq t \leq t_2 \\
\beta \cdot (t - t_2) + \left(e^{\alpha \cdot (t_2 - t_1)^2} - 1\right) & \text{if } t > t_2
\end{cases}
The exponential section rises gradually from 0 at t1 and accelerates
as time increases. The linear section starts at t2 with a value
matching the end of the exponential phase, ensuring continuity but not
necessarily matching the derivative.
Value
A numeric vector of the same length as t, representing the function values.
Examples
library(flexFitR)
plot_fn(
fn = "fn_exp2_lin",
params = c(t1 = 35, t2 = 55, alpha = 1 / 600, beta = -1 / 80),
interval = c(0, 108),
n_points = 2000,
auc_label_size = 3
)
R Package Documentation
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We want your feedback!
Note that we can't provide technical support on individual packages. You should contact the package authors for that.
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