| 1. | Contour detection based on inhibition of primary visual cortex
基于初级视皮层抑制的轮廓检测方法 |
| 2. | Primary visual cortex
初级视觉皮质 |
| 3. | The visual cortex related to motion perception as we know so far involves area v1 , v2 , v3 , mt and mst
本论文研究的主要问题是:生物视觉系统如何进行运动和运动形状感知。 |
| 4. | 10 hubel d h , wiesel t n . receptive fields , binocular interaction and functional architecture in the cat s visual cortex
郑南宁等人将该问题形式化为马尔科夫网,并用贝叶斯信念传播方法解决该问题。 |
| 5. | From there , the brain takes over as the information travels down the optic nerve to the visual cortex at the back of the brain
在大脑的控制下,视觉信息从神经节细胞传输给视神经,再传输给大脑后部的视觉大脑皮层。 |
| 6. | The result above indicates that orientation discrimination practising can leads to specific shift of orientation sensitivity for at least part of the dlgn neurons , which may contribute to the neural plasticity of orientation coding in visual cortex
以上结果提示,方位识别训练可特异性改变外膝体部分神经元(特定离心度上)的方位敏感性,这种敏感性改变可能对视皮层细胞的方位编码可塑性有贡献。 |
| 7. | 2 . silver staining and immunohistochemical methods were applied to explore the difference of gabaergic neurons and astrocytes ( specifically indicated by antibody of gfap ) in the primary visual cortex between young adult and old cats
2 .运用银染及免疫组织化学abc方法,在光学显微镜下观察、比较老年猫和青年猫初级视皮层v1区-氨基丁酸( gaba )能神经元和星形胶质细胞( gfap为其特异性标志物) 。 |
| 8. | It simulates the response characteristics of simple cells in biological visual cortex , and decomposes one image into sub - images with different resolutions and orientations in which every pixel represents the response of some neuron in the visual cortex
该方法模拟生物视觉皮层中简单细胞的响应特性,将单幅图像映射成一系列分辨力及方向各异的子图像,子图像中每个像素代表了视觉皮层中某个神经元的响应。 |
| 9. | The stimulus selectivity and pattern adaptation of neurons in the primary visual cortex ( area 17 ) of young adult and old cats was , for the first time , comparatively examined using single - neuron in vivo recording techniques
本文采用电生理和形态学手段对老年猫初级视皮层神经元的功能衰退进行观察并对其潜在的神经机制作了初步探讨。 1 .运用在位细胞外记录方法比较研究视皮层v1区细胞的刺激选择和图形适应特性。 |
| 10. | Although researchers have failed to find evidence for a single “ time organ ” in the brain , in the manner of , say , the visual cortex , it may be that future work will pin down those brain processes responsible for our sense of temporal passage
虽然研究人员至今尚未找到证据,来支持在大脑中存在一个时间器官的说法(所谓器官,是指如视觉皮质之类的东西) ,但或许未来的研究能够找出这种使我们产生时间流动感的大脑过程。 |
