The Weber fraction is treated as part of an information theoretical view of perception. In this theory of sensory perception, subjective magnitude is related to the information transmissible from stimulus to perceiver. The derived psychophysical law can be approximated as a power or logarithmic law, depending on conditions. The mathematical expression for the Weber fraction is obtained as a derivative of the psychophysical law. One of many interesting relationships derived here is that the product of the Stevens exponent with log,o stimulus range, for many sensory modalities, is equal to the maximum information transmitted per stimulus (in bits, measured in a test of categorical judgments) multiplied by 0.6. This number is a derived constant and is not measured from the data. 1978, 1981a, 1981b, 1982, 1983, 1984). The reader who is familiar with even the first and fourth of these papers may wish to proceed immediately to the section on Derivation of the Weber Fraction from the Psychophysical Law.Since the subject does not perform flawlessly, H. is not equal to the transmitted information, Hm , but must generally be diminished by the "stimulus equivocation," H•.The equivocation may be calculated from a generalization of Equation 1, which allows for the presence of conditional probabilities. Thus we have If H; is measured in bits of information, then 2 H .. gives us a measure of the maximum number of categories that can be identified without error. This value is largely independent of the number of categories (beyond a certain minimum) into which the'stimulus continuum was divided. Henceforth, we shall refer to H; as the "information content of the stimulus." H; was found to assume a relatively constant value across a number of sensory modalities. We shall take its mean value to be about 2.5 bits of information per stimulus.
The Information Content of a Steady Stimulus From an Experiment on Categorical JudgmentsIt was not many years after the appearance of the seminal papers by Shannon (1948) that information theory was applied in the analysis of experiments on perception. Gamer and Hake (1951) demonstrated how to calculate H m , the maximum information transmissible by a steady stimulus, from the stimulus-response matrix generated when a subject makes categorical judgments of a number of stimuli.From the known probabilities, pi' governing the administration of stimuli in each category, the stimulus information, H., may be calculated from the equation In this paper, we shall develop a general theory of the Weber fraction. We shall obtain a mathematical expression for ..::lei> lei> that accounts for the observed shape of the curve in Figure 1; and we shall be able to predict the parameters of the curve on theoretical grounds. As an unexpected bonus from the theory, we shall be able to derive a general mathematical relationship connecting the Stevens exponent, n, with the range of physical magnitudes, eI>, spanned by a given modality. The theoretical function for the Weber fraction that we shall obtain is derived qu...
