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多尺度网格细胞路径综合方法 被引量:4

Method to realize path integration based on multi-scale grid cells
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摘要 为实现无人作战飞机(UCAV,Unmanned Combat Aerial Vehicle)认知导航的空间方位自主推算,提出了一种基于多尺度网格细胞的路径整合方法.该方法模拟背侧内嗅皮层(dMEC,dorsal Medial Entorhinal Cortex)的相同区域网格细胞放电特征相同、不同区域放电特征递增变化的特点,构建尺度递增的仿生多尺度网格图组,在各层中引入突触样式(synaptic pattern)计算各细胞权值,通过细胞的活跃度变化表征各网格层中位置的变化,并在各层分别实现路径整合,进而利用低尺度整合结果调整高尺度整合,提高空间位置的推算精度.实验结果表明,所提方法在一定的速度误差与方向误差范围内能够精确推算方位,具有较高的空间位置推算精度,并且方向误差值随运动方向变化呈锯齿状分布. In order to autonomously reckon location and azimuth for unmanned combat aerial vehicle(UCAV)'s cognitive navigation,a kind of path integration based on multi-scale grid cells was proposed.According to the characteristics of neighboring cells in dorsal medial entorhinal cortex(dMEC) sharing common firing traits,while the firing traits of the grid increases isometrically along the dorsoventral axis,a bionic grid groups with incremental scales was constructed firstly,and then synaptic pattern was introduced in each grid layer to evaluate cell weights,therefore,the location and azimuth in each grid layer were calculated by changeable cell activities,and path integration was ultimately achieved in each grid layer.Space location precision was further improved by using integration results of small scales to adjust the grid layer of bigger scale.Simulation results prove that the method can exactly reckon location and azimuth within certain velocity error and azimuth error.It has a higher space location reckoning by adjusting bigger-scale grid layer.And the azimuth error has an indentation distribution accompanying the moving direction changing.
作者 邰能建 吴德伟 戚君宜 周阳
机构地区 空军工程大学信息与导航学院
出处 《北京航空航天大学学报》 EI CAS CSCD 北大核心 2013年第6期756-760,共5页 Journal of Beijing University of Aeronautics and Astronautics
基金 国家自然科学基金资助项目(61273048 61104056) 国防科技重点实验室资助项目(9140C0201010902)
关键词 认知导航 路径综合 网格细胞 多尺度 cognitive navigation path integration grid cells multi-scale
分类号 V279 [航空宇航科学与技术—飞行器设计]
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参考文献8

  • 1Hafting T,Fyhn M,Molden S,et al.Microstructure of a spatial map in the entorhinal cortex [J].Nature.2005,436:801-806.
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二级参考文献80

  • 1杨遵,雷虎民.基于空间分解网络的无人机航路规划[J].空军工程大学学报(自然科学版),2006,7(4):13-16. 被引量:4
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  • 5Guanella, AI & Verschure, P. F.M.J. (2006). A model of gird cells based on a path integration mechanism. S. Kollias et al. (Eds.): ICANN, Part Ⅰ, LNCS 4131, pp. 740-749.
  • 6Halting, T., Fyhn, M., Molden, S., Moser, M., & Moser, E. I. (2005). Microstructure of a spatial map in the entorhinal cortex. Nature, 436(7052), 801-806.
  • 7Hailing, T, Fyhn, M., Moser, M-B, & Moser, E. I. (2006). Phase precession and phase locking in entorhinal grid cells. Society for Neuroscience Abstract, 32, 68.8.
  • 8Hargreaves, E. L., Rao, G., Lee, I., & Knierim, J. J. (2005). Major Dissociation Between Medial and Lateral Entorhinal Input to Dorsal Hippocampus. Science, 308(5729), 1792-1794.
  • 9Hasselmo, M. E., Gioeomo, L. M., & Zilli, E. A. (2007). Grid cell firing may arise from interference of theta frequency membrane potential oscillations in single neurons. Hippoearapus, 17(12), 1252-1271.
  • 10Kjelstrup K. B, Solstad, T., Brun, V. H., Halting, T., Leutgeb, S., Witter, M. P., et al. (2008). Finite Scale of Spatial Representation in the Hippocampus. Science 321(4), 140-143.

共引文献28

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引证文献4

二级引证文献9

北京航空航天大学学报
2013年 第6期

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