在双眼视轴辐辏变化过程中,单眼编程的人类扫视运动?
Monocularly programmed human saccades during vergence changes?
作者信息
Enright J T
机构信息
Neurobiology Unit 0202, Scripps Institution of Oceanography, La Jolla, CA 92093, USA.
出版信息
J Physiol. 1998 Oct 1;512 ( Pt 1)(Pt 1):235-50. doi: 10.1111/j.1469-7793.1998.235bf.x.
Abstract
- When binocular fixation is shifted to a new target located at a different distance and in a different direction from initial fixation, a binocularly unbalanced saccade occurs at or near the onset of the composite eye movement. Those saccades typically produce good post-saccadic foveation of the target by one eye or the other. 2. Following such saccades, the better-aligned eye is typically as well aimed at the target as after pure versional saccades, but the partner eye deviates much more, thus requiring asymmetrical post-saccadic vergence movement. 3. This phenomenon suggests that during binocular viewing, the retinal eccentricity of a new-target's image from one of the eyes can be used to programme that eye's own saccade, so that it arrives reliably on target; and that the images of that target from both eyes participate in generating the saccadic excursion of the partner eye. 4. The ecologically useful result is rapid achievement of a high-resolution monocular view of the new target, although full binocular foveation is achieved much later.
摘要
- 当双眼注视转移到一个位于与初始注视不同距离和不同方向的新目标时,在复合眼动开始时或接近开始时会出现双眼不平衡扫视。这些扫视通常会使一只眼睛或另一只眼睛在扫视后对目标产生良好的中央凹注视。2. 在这种扫视之后,通常较好对齐的眼睛与纯版本扫视后一样能很好地对准目标,但另一只眼睛的偏差要大得多,因此需要不对称的扫视后聚散运动。3. 这种现象表明,在双眼观察期间,新目标图像在一只眼睛上的视网膜偏心率可用于规划该眼睛自身的扫视,使其可靠地到达目标;并且该目标在两只眼睛上的图像都参与产生另一只眼睛的扫视偏移。4. 虽然要很久之后才能实现完全的双眼中央凹注视,但从生态学角度来看,有用的结果是能快速获得新目标的高分辨率单眼视图。
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