View source: R/99_growth_curves.R
fn_exp2_lin | R Documentation |
A piecewise function that models an initial exponential growth phase based on a squared time difference, followed by a linear phase.
fn_exp2_lin(t, t1, t2, alpha, beta)
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 |
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.
A numeric vector of the same length as t
, representing the function values.
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
)
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