Bimanual force control requiring asymmetrical forces between limbs is more challenging than bimanual force control when the limbs produce symmetrical forces. Previous studies investigated visual information gains between 8 and 80 pixels/N to facilitate asymmetrical force control. Given that previous studies limited visual information gain to 80 pixels/N, the current experiment expanded the range by increasing visual information gains (8, 80, 256, and 512 pixels/N). A second manipulation involved three task constraint coefficients imposed on bimanual force control: (a) left-biased, (b) right-biased, and (c) equal-biased. Analyses of 15 right-handed adult volunteers revealed a decrease in bimanual force variability and more negative correlation coefficient with increased visual information gain in the equal biased condition. Significant reductions in bimanual force variability were found between 8 and 80 pixels/N. In contrast, significant improvements in coordination patterns between hands continued up to 256 pixels/N. These novel findings demonstrate that bimanual force coordination was more sensitive to an increase in visual information gains (>80 pixels/N) than bimanual force variability.
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