The generalized logistic function or curve is an extension of the logistic or sigmoid functions. Originally developed for growth modelling, it allows for more flexible S-shaped curves. The function is sometimes named Richards's curve after F.J.Richards, who proposed the general form for the family of models in 1959.

Definition

Richards's curve has the following form: where Y = weight, height, size etc., and t = time. It has six parameters: The equation can also be written: where M can be thought of as a starting time, at which. Including both Q and M can be convenient: this representation simplifies the setting of both a starting time and the value of Y at that time. The logistic function, with maximum growth rate at time M, is the case where Q = \nu = 1.

Generalised logistic differential equation

A particular case of the generalised logistic function is: which is the solution of the Richards's differential equation (RDE): with initial condition where provided that \nu > 0 and \alpha > 0 The classical logistic differential equation is a particular case of the above equation, with \nu =1, whereas the Gompertz curve can be recovered in the limit provided that: In fact, for small \nu it is The RDE models many growth phenomena, arising in fields such as oncology and epidemiology.

Gradient of generalized logistic function

When estimating parameters from data, it is often necessary to compute the partial derivatives of the logistic function with respect to parameters at a given data point t (see ). For the case where C = 1,

Special cases

The following functions are specific cases of Richards's curves:

Footnotes