Human Action Recognition by Imitating the Simple Cells of Visual Cortex

机译：通过模仿视觉皮质的简单细胞来识别人类的行为识别

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In order to improve the accuracy of human action recognition and accelerate the recognition speed, we propose a method for human action recognition by modeling the human primary visual cortex neurons. The method firstly extracted motion information by using 3DGabor spatial-temporal filters to model the classical receptive field (CRF) of simple cells in the primary visual cortex. Secondly, conductance-driven integrate and fire neuron model was used to simulate the primary visual cortex neuron, by which motion information was converted into spike train. Finally, the mean firing rate of spike train formed a feature vector that captures the characteristic of human actions in this video sequence. Using Support Vector Machine (SVM), the method is tested on the Weizmann action dataset. The obtained impressive results show that our method was more effective than model of Escobar in human action recognition.

机译：为了提高人类行动识别的准确性并加速识别速度，我们通过对人原发性视觉皮质神经元进行建模，提出了一种人体动作识别的方法。该方法首先通过使用3DGabor空间滤波器来提取运动信息来模拟主视觉皮质中的简单小区的经典接收字段（CRF）。其次，使用电导驱动的整合和消防神经元模型来模拟主要视觉皮层神经元，通过将运动信息转换为尖峰列车。最后，尖峰列车的平均射击率形成了一个特征向量，其捕获该视频序列中的人类动作的特征。使用支持向量机（SVM），在WeizMann Action DataSet上测试该方法。所获得的令人印象深刻的结果表明，我们的方法比人类行动识别的Escobar模型更有效。

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《International Conference on Intelligent Computation and Bio-Medical Instrumentation》|2011年||共8页
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Huang Lihong; Chen Xian-gan; Gao Zhiyong; Liu Haihua;
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中图分类 TP18-53;
关键词
3DGabor Spatial-temporal Filter; Action Recognition; Spiking neuron model;

机译：3dggabor空间颞滤镜;行动识别;尖峰神经元模型;

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专利

1. An effective 3D target recognition model imitating robust methods of the human visual system [J] . Sungho Kim, Gijeong Jang, In So Kweon Pattern Analysis and Applications . 2005,第3期

机译：模仿人类视觉系统鲁棒方法的有效3D目标识别模型
2. Synaptic interactions between thalamic inputs to simple cells in cat visual cortex. [J] . Usrey WM, Alonso JM, Reid RC The Journal of Neuroscience: The Official Journal of the Society for Neuroscience . 2000,第14期

机译：丘脑输入与猫视皮层中简单细胞之间的突触相互作用。
3. A Perceptual Visual Feature Extraction Method Achieved by Imitating V1 and V4 of the Human Visual System [J] . Sungho Kim, Soon Kwon, In So Kweon Cognitive Computation . 2013,第4期

机译：通过模仿人类视觉系统的V1和V4实现的感知视觉特征提取方法
4. Human Action Recognition by Imitating the Simple Cells of Visual Cortex [C] . Huang Lihong, Chen Xian-gan, Gao Zhiyong, 2011 International Conference on Intelligent Computation and Bio-Medical Instrumentation . 2011

机译：通过模仿视觉皮层的简单细胞进行人类动作识别
5. Strength and orientation of the thalamic input to layer 4 simple cells of the cat primary visual cortex revealed by (1) cortical cooling or (2) electrically-evoked cortical suppression [D] . Chung, Sooyoung 1998

机译：通过（1）皮质冷却或（2）电诱发皮质抑制显示的丘脑输入猫初级视觉皮层第4层简单细胞的强度和方向
6. Synaptic Interactions between Thalamic Inputs to Simple Cells in Cat Visual Cortex [O] . W. Martin Usrey, Jose-Manuel Alonso, R. Clay Reid 2000

机译：丘脑输入到猫视皮层中简单细胞的突触相互作用
7. Relating Visual Production and Recognition of Objects in Human Visual Cortex [O] . Judith E. Fan, Jeffrey D. Wammes, Jordan B. Gunn, 2019

机译：在人类视觉皮层中的视觉制作和识别对象

Human Action Recognition by Imitating the Simple Cells of Visual Cortex

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