Stimulus–response model


The stimulus–response model is a characterization of a statistical unit. The model allows the prediction of a quantitative response to a quantitative stimulus, for example one administered by a researcher. In psychology, stimulus response theory concerns forms of classical conditioning in which a stimulus becomes paired response in a subject's mind.

Fields of application

Stimulus–response models are applied in international relations,
:en:Neuropsychological_test|psychology,
risk assessment,
:en:Neuroscience|neuroscience,
neurally-inspired system design,
and many other fields.
Pharmacological dose response relationships are an application of stimulus-response models.

Mathematical formulation

The object of a stimulus–response model is to establish a mathematical function that describes the relation f between the stimulus x and the expected value of the response Y:
A common simplification assumed for such functions is linear, thus we expect to see a relationship like
Statistical theory for linear models has been well developed for more than fifty years, and a standard form of analysis called linear regression has been developed.

Bounded response functions

Since many types of response have inherent physical limitations, it is often applicable to use a bounded function to model the response. Similarly, a linear response function may be unrealistic as it would imply arbitrarily large responses. For binary dependent variables, statistical analysis with regression methods such as the probit model or logit model, or other methods such as the Spearman-Karber method. Empirical models based on nonlinear regression are usually preferred over the use of some transformation of the data that linearizes the stimulus-response relationship.
One example of a logit model for the probability of a response to the real input , is
where are the parameters of the function.
Conversely, a Probit model would be of the form
where is the cumulative distribution function of the normal distribution.

Hill equation

In biochemistry and pharmacology, the Hill equation refers to two closely related equations, one of which describes the response to Drug or Toxin, as a function of the drug's concentration. The Hill equation is important in the construction of dose-response curves. The Hill equation is the following formula, where is the magnitude of the response, is the drug concentration, EC50| is the drug concentration that produces a half-maximal response and is the Hill coefficient.
Note that the Hill equation rearranges to a logistic function with respect to the logarithm of the dose.