Discussion on Rhythmic Gait Movement Affected by Cerebral Cortex Signal

机译：大脑皮层信号影响节律性步态运动的探讨

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The gait movement on humans is a typical mode of the rhythmic movement. Proved by experiment, there is a neural circuit existing in the body of creatures, which controls various rhythmic movements. It is called as central pattern generator. The researchers study the gait movement in the basis of establishing the CPG model now. For the rhythmic movement, the neurobiologists believe that it is a lower neural activity, which is a spontaneous behavior without the control of the cerebral cortex signal. However, the gait movement on human has some different modes. Every mode of the gait movement is not directly controlled by cerebral cortex signal, but the instruction signal generated by cerebral cortex can regulate the interchange between the gait modes. In this paper, in the basis of thinking about the instruction regulation of cerebral cortex to gait movement on humans, the CPG model is revised. The revised model can reflect that the cerebral cortex signal can regulate the mode and frequency of gait, and can realize the interchange between gaits.

机译：人类的步态运动是有节奏运动的典型模式。经过实验证明，生物体内存在神经回路，可以控制各种节奏运动。它称为中央模式生成器。研究人员现在在建立CPG模型的基础上研究步态运动。对于有节律的运动，神经生物学家认为这是一种较低的神经活动，是一种自发行为，不受大脑皮层信号的控制。但是，人类的步态运动有一些不同的模式。步态运动的每种模式都不直接由大脑皮层信号控制，但是大脑皮层产生的指令信号可以调节步态模式之间的互换。本文在思考大脑皮层对人的步态运动的指令调节的基础上，对CPG模型进行了修正。修改后的模型可以反映出大脑皮层信号可以调节步态的方式和频率，实现步态之间的互换。

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来源
《Advances in cognitive neurodynamics (II)》|2011年|465-472|共8页
会议地点 Hangzhou(CN)
作者
Wei Dong; Rubin Wang; Zhikang Zhang; Jianting Cao;
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作者单位

School of Information Science and Engineering, Institute for Cognitive Neurodynamics,East China University of Science and Technology, Shanghai 200237, P.R. China;

School of Information Science and Engineering, Institute for Cognitive Neurodynamics,East China University of Science and Technology, Shanghai 200237, P.R. China;

School of Information Science and Engineering, Institute for Cognitive Neurodynamics,East China University of Science and Technology, Shanghai 200237, P.R. China;

School of Information Science and Engineering, Institute for Cognitive Neurodynamics,East China University of Science and Technology, Shanghai 200237, P.R. China;

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原文格式 PDF
正文语种 eng
中图分类神经系;
关键词
CPG; Gait movement; Rhythmic movement; Cerebral cortex signal; Conversion function;

机译：CPG;步态运动;节律运动;大脑皮层信号;转换功能;

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专利

1. Exploring human rhythmic gait movement in the role of cerebral cortex signal [J] . Wei DONG, Ru-bin WANG, Zhi-kang ZHANG 应用数学和力学（英文版） . 2011,第002期

机译：探索人类有节奏的步态运动在大脑皮层信号中的作用
2. Exploring human rhythmic gait movement in the role of cerebral cortex signal [J] . Wei DONG, Ru-bin WANG, Zhi-kang ZHANG 应用数学和力学：英文版 . 2011,第002期

机译：探索人类有节奏的步态运动在大脑皮层信号中的作用
3. A role for PDGF-C/PDGFR???± signaling in the formation of the meningeal basement membranes surrounding the cerebral cortex A role for PDGF-C/PDGFR???± signaling in the formation of the meningeal basement membranes surrounding the cerebral cortex A role for PDGF-C/PDGFR???± signaling in the formation of the meningeal basement membranes surrounding the cerebral cortex [J] . Linda Fredriksson, Radiosa Gallini, Leonor Gouveia, Biology Open . 2016,第4期

机译：PDGF-C /PDGFRα信号在大脑皮层周围的脑膜基底膜形成中的作用PDGF-C /PDGFRα信号在大脑皮层周围的脑膜基底膜形成中的作用PDGF-C /PDGFRα±信号在大脑皮质周围脑膜基底膜形成中的作用
4. Discussion on Rhythmic Gait Movement Affected by Cerebral Cortex Signal [C] . Wei Dong, Rubin Wang, Zhikang Zhang, International conference on cognitive neurodynamics . 2011

机译：关于脑皮层信号影响的节奏步态运动的探讨
5. Slow potentials of the sensorimotor cortex during rhythmic movements of the ankle. [D] . McKindles, Ryan J. 2013

机译：踝节律性运动期间感觉运动皮层的电位慢。
6. Rhythmic Whisking Area (RW) in Rat Primary Motor Cortex: An Internal Monitor of Movement-Related Signals? [O] . Todor V. Gerdjikov, Florent Haiss, Olga E. Rodriguez-Sierra, 2013

机译：大鼠原发性运动皮层的节律性扫动区（RW）：与运动有关的信号的内部监控器？
7. Rhythmic Whisking Area (RW) in Rat Primary Motor Cortex: An Internal Monitor of Movement-Related Signals? [O] . Gerdjikov, Todor V., Haiss, Florent, Rodriguez-Sierra, Olga E., 2013

机译：大鼠原发性运动皮层的节律性扫动区（RW）：与运动有关的信号的内部监控器？
8. Rhythmically Firing (20 - 50 Hz) Neurons in Monkey Primary Somatosensory Cortex:Activity Patterns during Initiation of Vibratory-Cued Hand Movements. Enclosure Number 1 [R] . Lebedev, M. A., Nelson, R. J. 1995

机译：猴子初级躯体感觉皮层中的节律性射击（20-50Hz）神经元：起始于振动指纹的手部运动期间的活动模式。附件编号1

Discussion on Rhythmic Gait Movement Affected by Cerebral Cortex Signal

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