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Figure 2 | BMC Neuroscience

Figure 2

From: An analysis of the dependence of saccadic latency on target position and target characteristics in human subjects

Figure 2

Saccadic latencies and saccadic amplitudes for increasing target displacements at 0; 10; 20 and 28 deg of steady eccentric gaze shown in descending order for a moving target in the same subject. The graphs of saccadic latency against target displacement show the mean value as a broken line (A: R2 = 0.2%, P slope = 0.57; y = 182.8 ± 1.33 ms (S.E.M.), C: R2 = 0.3%, P slope = 0.22; y = 187.3 ± 1.74 ms (S.E.M.), E: R2 = 0.5%, P slope = 0.17; y = 177.8 ± 1.34 ms (S.E.M.), G: R2 = 0.5%, P slope = 0.18; y = 185.9 ± 1.78 ms (S.E.M.)) while the graphs of saccadic amplitude against target displacement show the best fitting regression line (B: y = 2.00 + 0.96x; R2 = 89.1%, P slope < 0.001; F = 1572; d.f. = 193, D: y = 2.86 + 0.86x; R2 = 91.9%, P slope < 0.001; F = 1858; d.f. = 193, F: y = 0.39 + 1.00x; R2 = 87.7%, P slope < 0.001; F = 1181; d.f. = 167, H: y = 3.2 + 1.17x; R2 = 95.0%, P slope < 0.001; F = 3163; d.f. = 167).

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