Abstract
We examined the effect of aging on the integration of position and motion signals, which is essential for tracking visual objects, using the motion-induced position shift (MIPS) phenomenon. We first measured the MIPS and bias in speed perception at three eccentricities. Both young and older adults showed the increasing MIPS and decreasing perceived speed as the eccentricity increased, which is consistent with previous literature. More importantly, we found that the mean MIPS was 2.87 times larger in older adults, and the response variability in position tasks showed a larger difference between age groups compared with the difference in speed tasks. We then measured the MIPS across stimulus durations. Temporal changes in the MIPS showed similar patterns in young and older adults in that the MIPS initially peaked at around 60 ms and approached an asymptote. We further analyzed the changes in response variability across stimulus durations to estimate sensory noise and propagation noise separately and found that only sensory noise was significantly larger in older adults. The overall results suggest that the increased MIPS in older adults is due to the increased dependency on predictive motion signals to compensate for the relatively imprecise position signals, which in turn implies that older adults would depend more on the motion signals to track objects.
Highlights
The function of the human visual system deteriorates with aging
We found that the older adult participants showed the notably larger motion-induced position shift (MIPS) than younger participants
The MIPS demonstrates the influence of motion signal on position estimation, and the increased MIPS size in older adults indicated a stronger influence of motion signals on position estimation
Summary
The function of the human visual system deteriorates with aging. The ability to discriminate spatially defined features deteriorates in general. Multiple object tracking is not an ideal task to examine exclusively the aging effect on the process of tracking itself, because the aging effect on the task is caused by age-related changes in the ability to split attention across multiple targets[24] It remains unanswered how the impoverished position and motion signals of older adults affect visual object tracking. If motion sensitivity is low or the integration process between the position and predictive motion signal is not intact while positional uncertainty is relatively low in older adults, the size of the MIPS will decrease. This will happen because intact motion perception and the influence of motion signals on position estimation are necessary for the MIPS to occur
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