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Where vision is concerned, light is generally specified in photometric units, not in quanta of light (photons) and energy. Commission Internationale de l’Eclairage (CIE). Measure the threshold luminance at each wavelength.
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Where vision is concerned, light is generally specified in photometric units, not in quanta of light (photons) and energy
Measure the threshold luminance at each wavelength. Set the minimum threshold (maximum sensitivity) at 1.0 and compare all other sensitivities to that Light adapted dark adapted Fig. A-1. The photopic (V) and scotopic (V’) curves of relative luminosity as standardized by the Commission Internationale de l’Eclairage (CIE). Modified from Wright (1958)
It is a threshold measure It can be used to set stimuli of different wavelengths to the same amount above threshold (e.g., 1 log unit above threshold)
Fig. A.2 Typo: Illuminance 1015
One steradian is defined as the solid angle subtended at the center of a sphere of radius r by a portion of the surface of the sphere having an area r2.
Learn at least 4 of these values; they will never change during your career and are handy to know * * * *
- (L L ) /L T B B Contrast is not a photometric term. Contrast is an expression of luminous difference between two surfaces . The standard quantitative definition of contrast for a target on a background is: Eq. A.4 where L is the luminance of the ref erence surface and L is the luminance of the B T second surface. If L > L then the contrast is positive; otherwise it is negative. T B “ Weber Contrast ” This is sometimes called
The contrast of sine-wave gratings is measured differently Fig. 6.6
Sine-wave gratings are measured in terms of their spatial frequency defined as the number of cycles per degree of visual angle Fig. 6.7
Specifying and Using Visual Angle Stimulus size is often expressed in terms of visual angle Fig. A.3
Specifying and Using Visual Angle Stimulus size is often expressed in terms of visual angle Fig. A.3
Specifying and Using Visual Angle • Stimulus size is often expressed in terms of visual angle • Two advantages: • Provides a measure of the stimulus size on the retina • That allows investigators in other labs to duplicate the stimulus size (without needing to duplicate the equipment)
Objects A and B are the same size, but subtend different angles on the retina because they are at different distances from the cornea; when an object moves closer, it subtends a larger retinal angle Object C subtends the same angle as object A, so A and C would be indistinguishable based on retinal size and position alone Can calculate the visual angles subtended by the visual stimuli:
Visual angles are expressed in degrees, minutes or seconds of arc Large stimuli subtend visual angles expressed in degrees () (e.g., a 10 spot) There are 360 in a circle Smaller stimuli are described in minutes (’) of arc There are 60’ in 1 of arc Still smaller stimuli are expressed in second (”) of arc (also called “arc sec”) There are 60” in 1’ of arc