Peripheral and central delay in processing high spatial frequencies: reaction time and VEP latency studies.

Mihaylova M; Stomonyakov V; Vassilev A

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Peripheral and central delay in processing high spatial frequencies: reaction time and VEP latency studies.

机译：处理高空间频率时的外围和中央延迟：反应时间和VEP潜伏期研究。

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Visually evoked potentials (VEP) and reaction time (RT) were recorded under stimulation with sinusoidal gratings. Grating spatial frequency (SF) was 0.5, 5 or 12 cd and grating contrast was varied. Consistent with previous findings, both VEP latency and RT increased with the increase of grating SF and with the decrease of grating contrast. It was found, in addition, that RT and VEP latency increased by approximately the same amount when SF increased from 0.5 to 5 cd, thus suggesting that the main source of the RT delay at 5 cd in comparison with RT at 0.5 cd is of peripheral origin. However, in comparison with the data at 0.5 and 5 cd, RT at 12 cd increased much more than VEP latency. We conclude that the RT delay at high SF involves a substantial central component in addition to the peripheral delay.

机译：在正弦光栅刺激下记录视觉诱发电位（VEP）和反应时间（RT）。光栅空间频率（SF）为0.5、5或12 cd，并且光栅对比度变化。与以前的发现一致，VEP潜伏期和RT都随着光栅SF的增加和光栅对比度的降低而增加。此外，还发现，当SF从0.5 cd增加到5 cd时，RT和VEP潜伏期增加的幅度几乎相同，因此，与0.5 cd处的RT相比，5 cd处的RT延迟的主要来源是外围的起源。但是，与0.5和5 cd处的数据相比，12 cd处的RT增长远大于VEP延迟。我们得出的结论是，高SF时的RT延迟除了外围延迟外，还涉及大量的中心分量。

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《Vision Research: An International Journal in Visual Science》 |1999年第4期|共7页
作者
Mihaylova M; Stomonyakov V; Vassilev A;
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正文语种 eng
中图分类眼科学;
关键词
Evoked Potentials; Visual; Form Perception; Reaction Time; 诱发电位; 视觉; 形状知觉; 反应时间;

机译：Evoked Potentials;Visual;Form Perception;Reaction Time;诱发电位;视觉;形状知觉;反应时间;

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1. Peripheral and central delay in processing high spatial frequencies: reaction time and VEP latency studies. [J] . Mihaylova M, Stomonyakov V, Vassilev A Vision Research: An International Journal in Visual Science . 1999,第4期

机译：处理高空间频率时的外围和中央延迟：反应时间和VEP潜伏期研究。
2. On the delay in processing high spatial frequency visual information: reaction time and VEP latency study of the effect of local intensity of stimulation. [J] . Vassilev A, Mihaylova M, Bonnet C Vision Research: An International Journal in Visual Science . 2002,第7期

机译：关于处理高空间频率视觉信息的延迟：反应时间和VEP潜伏期研究局部刺激强度的影响。
3. Spatial frequency processing in the central and peripheral visual field during scene viewing [J] . Cajar Anke, Engbert Ralf, Laubrock Jochen Vision Research: An International Journal in Visual Science . 2016,第Null期

机译：场景查看期间中央和周边视野中的空间频率处理
4. central and peripheral effects on amplitude and latency characteristics of VEP's [C] . Mitchell-DePew J.A., Zervos E., Micheli-Tzanaou E. Engineering in Medicine and Biology Society, 1990., Proceedings of the Twelfth Annual International Conference of the IEEE . 1990

机译：对VEP振幅和潜伏期特征的中央和外围影响
5. The use of reaction time, N200 and P300 latency, movement time and accuracy data in localizing the effects of amphetamine and ethanol on stages of information processing and energetical mechanisms: Implications for uni- and multidimensional views of human performance. [D] . Adams, Jeffrey Owen. 1994

机译：使用反应时间，N200和P300潜伏期，移动时间和准确性数据来定位苯丙胺和乙醇对信息处理和能量机制阶段的影响：对人类绩效的一维和多维视图的含义。
6. The Bottleneck of Central Processing: Clues from Reaction Times [O] . 2005

机译：中央处理的瓶颈：反应时间的线索
7. Peripheral and central delay in processing high spatial frequencies: reaction time and VEP latency studies [O] . Mihaylova Milena, Stomonyakov Vladislav, Vassilev Angel 1999

机译：处理高空间频率时的外围和中央延迟：反应时间和VEP潜伏期研究

Peripheral and central delay in processing high spatial frequencies: reaction time and VEP latency studies.

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