We measured the regions of the equiluminant plane that are exploited
by observers during a Yes/No detection task. The signal was a
640-ms Gaussian modulation (σt = 160 ms) of a
Gaussian spatial patch (σs = 2.4 deg) presented
in chromatically bivariate uniform noise. One component of the noise
was along the direction axial with the signal in color space, the other
perpendicular. Four signal directions were tested: along cardinal LM
and S axes and two intermediate directions to which the cardinal axes
were equally sensitive. The distribution of noise chromaticities from
each trial was correlated with the observers' responses and the
presence and absence of the signal to build a classification image of
the distribution of chromaticities on which the decision of the
observer was based. The images show a narrowly selective peak in the
signal direction flanked by regions with a broader selectivity. These
results raise the possibility that detection judgments are mediated by
both linear and nonlinear mechanisms with peak sensitivities between
the cardinal directions.