Four response methods for indicating the perceived locations of nearby obje
cts were evaluated: the direct-location (DL) method, where a response point
er is moved directly to the perceived location of the target; the large-hea
d (LH) and small-head (SH) methods, where the pointer is moved to the targe
t location relative to a full-scale or half-scale manikin head; and the ver
bal report (VR) method, where the spherical coordinates of the target locat
ion are indicated verbally. Measurements with a visual target indicated tha
t the DL method was relatively unbiased and considerably more accurate than
the other methods, which were all roughly equivalent. Correcting for bias
improved accuracy in the LH, SH, and VR responses, but not to the level of
the uncorrected DL responses. Replacing the visual target with an acoustic
stimulus approximately doubled the errors with the DL response but indicate
d similar performance in the front and rear hemispheres. The results sugges
t that DL is the most appropriate response method for close-range localizat
ion experiments.