6
At threshold, Taylor would predict an annulus width of 1.25
minutes at the adaptation level used in these investigations, but
the width could be expected to be somewhat less in these tests since
the targets were well above threshold.
The steep linear portion at the left of the curves in figure 3
suggests that this annulus is significant in pointing, and has a width
of approximately 1 minute under the conditions described. Although
the subjective annulus was presumably not present with the smaller
measuring marks, fixation would cause the judgement to be made on the
sensitive central fovea. For the larger measuring marks, and the
associated subjective annuli, the image excursion caused by nystagmus
would bring all parts of the annulus on to the central fovea in turn,
providing the information for the epicritic judgement.
Figure 3 suggests a zone of constancy approximately 4 minutes
of arc in diameter, but this seems to be a function of the annulus
between mark and target rather than the overall visual angle of the
target. An annulus width of 0.15 minutes gives a pointing error of
the order of 1.2 seconds irrespective of the overall visual angle up
to a diameter of at least 45 minutes.
It will be noted that the pointing error Sp is a function S x
and Sy. The pointing error in the X and Y directions may be esti
mated from the curves as For annuli of width 0.15 minutes
of arc, this amounts to approximately 0.8 seconds. This could pre
sumably be expected in theodolite pointings, or in any optical
settings under the same conditions.
As the width of the annulus increases above approximately 4
minutes of arc the curves rise and approach the corresponding Weber's
law curves obtained earlier with the stereocomparator (10).
III. CONCLUSIONS
These investigations were restricted to foveal imagery of high-
contrast circular targets and measuring marks subtending visual angles
of 2-45 minutes of arc. This range should include the sizes likely
to be used for artificial pass-points for visual pointing.
The thresholds obtained were in good agreement with generally
accepted vernier acuity thresholds, and appeared to justify the de
sign of the special apparatus.
The results supported the concept of a retinal zone approxi
mately 4 minutes of arc in diameter over which acuity is constant,
but further suggested that this may be dependent on the type of task
involved. The maximum information content for the pointing appeared
