R/ashrafi1_2018.R
In padpadpadpad/rTPC: Fitting and Analysing Thermal Performance Curves
Defines functions
ashrafi1_2018.upper_lims
ashrafi1_2018.lower_lims
ashrafi1_2018.starting_vals
ashrafi1_2018
Documented in
ashrafi1_2018
#' Ashrafi I model for fitting thermal performance curves
#'
#' @param temp temperature in degrees centigrade
#' @param a dimensionless parameter
#' @param b dimensionless parameter
#' @param c dimensionless parameter
#' @author Daniel Padfield
#' @return a numeric vector of rate values based on the temperatures and parameter values provided to the function
#' @references Ashrafi, R. et al. Broad thermal tolerance is negatively correlated with virulence in an opportunistic bacterial pathogen. Evolutionary Applications 11, 1700–1714 (2018).
#' @details Equation:
#' \deqn{rate=a + b \cdot temp^{2} + log(temp) + c \cdot temp^{3}}{%
#' rate = a + b.temp^2 + log(temp) + c.temp^3}
#'
#' Start values in \code{get_start_vals} are derived from the data or sensible values from the literature.
#'
#' Limits in \code{get_lower_lims} and \code{get_upper_lims} are derived from the data or based extreme values that are unlikely to occur in ecological settings.
#' @note Generally we found this model easy to fit.
#' @concept model
#' @examples
#' # load in ggplot
#' library(ggplot2)
#'
#' # subset for the first TPC curve
#' data('chlorella_tpc')
#' d <- subset(chlorella_tpc, curve_id == 1)
#'
#' # get start values and fit model
#' start_vals <- get_start_vals(d$temp, d$rate, model_name = 'ashrafi1_2018')
#' # fit model
#' mod <- nls.multstart::nls_multstart(rate~ashrafi1_2018(temp = temp, a, b, c),
#' data = d,
#' iter = c(4,4,4),
#' start_lower = start_vals - 10,
#' start_upper = start_vals + 10,
#' lower = get_lower_lims(d$temp, d$rate, model_name = 'ashrafi1_2018'),
#' upper = get_upper_lims(d$temp, d$rate, model_name = 'ashrafi2_2018'),
#' supp_errors = 'Y',
#' convergence_count = FALSE)
#'
#' # look at model fit
#' summary(mod)
#'
#' # get predictions
#' preds <- data.frame(temp = seq(min(d$temp), max(d$temp), length.out = 100))
#' preds <- broom::augment(mod, newdata = preds)
#'
#' # plot
#' ggplot(preds) +
#' geom_point(aes(temp, rate), d) +
#' geom_line(aes(temp, .fitted), col = 'blue') +
#' theme_bw()
#' @export ashrafi1_2018
ashrafi1_2018 <- function(temp, a, b, c){
est <- a + b*temp + log(temp) + c*temp^3
return(est)
}
ashrafi1_2018.starting_vals <- function(d){
a = min(d$y, na.rm = TRUE)
b = 0.1
c = 0.003
return(c(a = a, b = b, c = c))
}
ashrafi1_2018.lower_lims <- function(d){
a = -Inf
b = -Inf
c = -Inf
return(c(a = a, b = b, c = c))
}
ashrafi1_2018.upper_lims <- function(d){
a = Inf
b = Inf
c = Inf
return(c(a = a, b = b, c = c))
}
padpadpadpad/rTPC documentation built on Feb. 21, 2025, 5:30 a.m.
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Defines functions ashrafi1_2018.upper_lims ashrafi1_2018.lower_lims ashrafi1_2018.starting_vals ashrafi1_2018
Documented in ashrafi1_2018
#' Ashrafi I model for fitting thermal performance curves
#'
#' @param temp temperature in degrees centigrade
#' @param a dimensionless parameter
#' @param b dimensionless parameter
#' @param c dimensionless parameter
#' @author Daniel Padfield
#' @return a numeric vector of rate values based on the temperatures and parameter values provided to the function
#' @references Ashrafi, R. et al. Broad thermal tolerance is negatively correlated with virulence in an opportunistic bacterial pathogen. Evolutionary Applications 11, 1700–1714 (2018).
#' @details Equation:
#' \deqn{rate=a + b \cdot temp^{2} + log(temp) + c \cdot temp^{3}}{%
#' rate = a + b.temp^2 + log(temp) + c.temp^3}
#'
#' Start values in \code{get_start_vals} are derived from the data or sensible values from the literature.
#'
#' Limits in \code{get_lower_lims} and \code{get_upper_lims} are derived from the data or based extreme values that are unlikely to occur in ecological settings.
#' @note Generally we found this model easy to fit.
#' @concept model
#' @examples
#' # load in ggplot
#' library(ggplot2)
#'
#' # subset for the first TPC curve
#' data('chlorella_tpc')
#' d <- subset(chlorella_tpc, curve_id == 1)
#'
#' # get start values and fit model
#' start_vals <- get_start_vals(d$temp, d$rate, model_name = 'ashrafi1_2018')
#' # fit model
#' mod <- nls.multstart::nls_multstart(rate~ashrafi1_2018(temp = temp, a, b, c),
#' data = d,
#' iter = c(4,4,4),
#' start_lower = start_vals - 10,
#' start_upper = start_vals + 10,
#' lower = get_lower_lims(d$temp, d$rate, model_name = 'ashrafi1_2018'),
#' upper = get_upper_lims(d$temp, d$rate, model_name = 'ashrafi2_2018'),
#' supp_errors = 'Y',
#' convergence_count = FALSE)
#'
#' # look at model fit
#' summary(mod)
#'
#' # get predictions
#' preds <- data.frame(temp = seq(min(d$temp), max(d$temp), length.out = 100))
#' preds <- broom::augment(mod, newdata = preds)
#'
#' # plot
#' ggplot(preds) +
#' geom_point(aes(temp, rate), d) +
#' geom_line(aes(temp, .fitted), col = 'blue') +
#' theme_bw()
#' @export ashrafi1_2018
ashrafi1_2018 <- function(temp, a, b, c){
est <- a + b*temp + log(temp) + c*temp^3
return(est)
}
ashrafi1_2018.starting_vals <- function(d){
a = min(d$y, na.rm = TRUE)
b = 0.1
c = 0.003
return(c(a = a, b = b, c = c))
}
ashrafi1_2018.lower_lims <- function(d){
a = -Inf
b = -Inf
c = -Inf
return(c(a = a, b = b, c = c))
}
ashrafi1_2018.upper_lims <- function(d){
a = Inf
b = Inf
c = Inf
return(c(a = a, b = b, c = c))
}
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