larvaworld.lib.util.fitting
Functions
|
Nelder-Mead simplex optimization. |
|
Compute beta function used in DEB textbook (p.58). |
|
Stochastic bout duration with critical dynamics. |
|
Stochastic bout duration with exponential dynamics. |
Module Contents
- larvaworld.lib.util.fitting.simplex(func: Callable[Ellipsis, float], x0: float | numpy.ndarray, args: tuple[Any, Ellipsis] = ()) float
Nelder-Mead simplex optimization.
Minimizes function using Nelder-Mead algorithm with tight tolerance.
- Args:
func: Function to minimize. x0: Initial parameter value(s). args: Additional arguments passed to func.
- Returns:
Optimized parameter value.
- Example:
>>> def cost(x): return (x - 3)**2 >>> result = simplex(cost, x0=0.0)
- larvaworld.lib.util.fitting.beta0(x0: float, x1: float) float
Compute beta function used in DEB textbook (p.58).
Implements the beta function for Dynamic Energy Budget (DEB) modeling as defined in the DEB textbook, page 58.
- Args:
x0: First parameter value x1: Second parameter value
- Returns:
Real part of the computed beta function difference
- Example:
>>> result = beta0(0.5, 1.0) >>> isinstance(result, float) True
- larvaworld.lib.util.fitting.critical_bout(c: float = 0.9, sigma: float = 1, N: int = 1000, tmax: int = 1100, tmin: int = 1) int
Stochastic bout duration with critical dynamics.
Simulates behavioral bout durations using critical point dynamics with population size N and control parameters c, sigma.
- Args:
c: Control parameter (default: 0.9). sigma: Noise parameter (default: 1). N: Population size (default: 1000). tmax: Maximum bout duration (default: 1100). tmin: Minimum bout duration (default: 1).
- Returns:
Bout duration in timesteps.
- Example:
>>> duration = critical_bout(c=0.9, sigma=1.0, N=1000)
- larvaworld.lib.util.fitting.exp_bout(beta: float = 0.01, tmax: int = 1100, tmin: int = 1) int
Stochastic bout duration with exponential dynamics.
Simulates behavioral bout durations using exponential waiting time with rate parameter beta.
- Args:
beta: Rate parameter for exponential process (default: 0.01). tmax: Maximum bout duration (default: 1100). tmin: Minimum bout duration (default: 1).
- Returns:
Bout duration in timesteps.
- Example:
>>> duration = exp_bout(beta=0.01, tmax=1000)