Abstract
Temporal order judgment (TOJ) between the voluntary motor action and its perceptual feedback is important in distinguishing between a sensory feedback which is caused by observer’s own action and other stimulus, which are irrelevant to that action. Prolonged exposure to fixed temporal lag between motor action and visual feedback recalibrates motor-visual temporal relationship, and consequently shifts the point of subjective simultaneity (PSS). Previous studies on the audio-visual temporal recalibration without voluntary action revealed that the low level processing is involved. However, it is not clear how the low and high level processings affect the recalibration to constant temporal lag between voluntary action and visual feedback. This study examined retinotopic specificity of the motor-visual temporal recalibration. During the adaptation phase, observers repeatedly pressed a key, and visual stimulus was presented in left or right visual field with a fixed temporal lag (0 or 200 ms). In the test phase, observers performed a TOJ for observer’s voluntary keypress and test stimulus, which was presented in the same as or opposite to the visual field in which the stimulus was presented in the adaptation phase. We found that the PSS was shifted toward the exposed lag in both visual fields. These results suggest that the low visual processing, which is retinotopically specific, has minor contribution to the motor-visual temporal lag adaptation, and that the adaptation to shift the PSS mainly depends upon the high level processing such as attention to specific properties of the stimulus.
Highlights
Temporal order judgment (TOJ) between motor action and perception is important in distinguishing between a sensory feedback resulting from observer’s own action and a lot of external events, which are irrelevant to the action
We obtained a TOJ response and a temporal lag between the real fifth keypress and a test stimulus in each www.frontiersin.org trial
We found no significant effect of adapted visual field
Summary
Temporal order judgment (TOJ) between motor action and perception is important in distinguishing between a sensory feedback resulting from observer’s own action and a lot of external events, which are irrelevant to the action. Our perceptual system should compensate such temporal discrepancy for accurate TOJ between motor action and perceptual signals, and for accurate detection the perceptual event, which is caused by our own motor action. As one of the way to compensate the discrepancy between motor signal and perceptual feedback, our perceptual system can recalibrate the motor-sensory temporal relationship. Stetson et al (2006) reported the temporal recalibration between motor action and visual feedback In their experiment, their observers were exposed to the consistent 100 ms injected lag between a keypress and a subsequent visual flash. The point of subjective simultaneity (PSS) was shifted toward the direction to compensate the lag
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