Guo F, Wang K Y. Design of cluster eyes and image collection system based on target positioning and Target Tracking[J].Aero Weaponry, 2011, (2) : 1673-5048.[郭方, 王克逸. 基于目标定位与跟踪的簇眼结构和图像采集系统设计[J].航空兵器, 2011, (2) :1673-5048.]
[2]
Cao J, Tao W B.Estimating Target\'s distance using multiaperture optical imaging sensor[J].Instrument Technique and Sensor, 2004, 3:1002-1841.[曹炬, 陶文兵. 运用多个光学成像探测器估算目标距离[J].仪表技术与传感器, 2004, 3:1002-1841.]
[3]
Wang Y S, He Q.An omnidirectional target monitoring system based on compound eyes technology[J]. Optical Technique 2006, 32 (S1) :1002-1582.[王永松, 赫群. 基于昆虫复眼技术的全视场运动的目标监测系统[J].光学技术, 2006, 321:1002-1582. ]
[4]
Patrick A, Shoemaker, David C, et al. Velocity constancy and models for wide-field visual motion detection in insece[J].Biological Cybernetics, 2006, 93:275-287.
[5]
Hassenstein. B, Reichardt W. Functional structure of a mechanism of perception of optical movement[C]// Proceedings of the 1st Internation Congress on Cybernetics. Namur: Association Internationale de Cybernetique, 1956, 797-801.
[6]
Jacques D, Daniela R, Andreas T.Spherical artificial compound eye captures real images[J]. Sple Moems and Miniaturized Systems VI. 2007, (1) :K1-K9.
[7]
Duparre J, Schreiber P, Dannberg P, et al. Arctificial compound eyes:different concepts and their application for ultraflat image acquisition sensors[C]//Proceedings of the SPIE. San Jose, CA:SPIE, 2004, 5346:89-100
[8]
Wang W F. Imitation insect compound eye of vehicle breaking detection method on video of traffic[J]. Computer Engineering and Applications, 2010, 48 (6) : 246-248.[王卫锋. 仿昆虫复眼交通视频停车事件的检测方法[J].计算机工程与应用, 2010, 48 (6) : 246-248.]
[9]
Simone C, Andrea P, Poberto V, et al. Consistent labeling formult-i camera object tracking[C]//Proceedings of Lecture Notes in Computer Science. Heidelberg:Springer, 2005, 3617:1206-1214.
[10]
Liang Y C, Chen J X, Chen M J, et al. Three-dimensional molecular dynamics simulation of nanostructure for reciprocating nanomachining process[J]. Journal of Vacuum Science& Technology, 2009, 27 (3) :1536-1542.
[11]
Yan Y D, Sun T, Zhao X S, et al. Fabrication of microstructures on the surface of a micro/hollow target ball by AFM[J]. Journal of Micromechanics and Micro-engineering, 2008, 18 (3) :1-7.
[12]
Yan Y D, Sun T, Pan B, et al. Controlled monolayer self-assembly process based on the atomic force microscopy nanoscratching method[J]. Journal of Vacuum Science& Technology, 2010, 27 (3) :1247-1250.
[13]
Yu C Z. Research on moving object detection and tracking technology in video sequences. Nanjing: Dongnan Univerisity, 2006.[于成忠. 视频序列中运动目标的提取与跟踪.南京:东南大学, 2006.]
[14]
Pan F, Wang X Y. A new detection and tracking algorithm for moving objects[J].Opto-Electronic Engineering, 2005, 32 (1) :43-46.[潘锋, 王宣银. 一种新的运动目标检测与跟踪算法[J].光电工程, 2005, 32 (1) :43-46.]
[15]
Tao S, Zeng L J. Compound eyes modelbased on the spatial lateral inhibition network[J]. Optical Technique, 2007, 32 (3) :1002-1582.[陶圣, 曾理江. 结合空间侧抑制的仿生复眼模型[J].光学技术, 2007, 32 (3) :1002-1582.]
[16]
Wang F, Li Y J, Chen Y. A method of edge extraction based on lateral inhibition principles[J]. Journal of Northwestern Polytechnical University, 1998, 16 (4) : 536-539.[王蜂, 李言俊, 陈鹰. 基于侧抑制竞争原理提取图像边缘的方法[J]. 西北工业大学学报, 1998, 16 (4) : 536-539.]
[17]
Zhou W. Using lateral inhibition neural network to identification boundary[J]. Journal of Nanjing University of Posts and Telecommunications, 2003, 23 (1) : 73-76.[周文. 利用侧抑制神经网络的边界识别[J]. 南京邮电学院学报, 2003, 23 (1) : 73-76.]
[18]
Zhao D W. The infrared image preprocessing based on the lateral inhibition networks[J]. Journal of Projectiles Rockets Missiles and Guidance, 2005, 25 (4) : 213-218.[赵大炜. 基于侧抑制网络红外图像预处理[J].弹箭与制导学报, 2005, 25 (4) : 213-218.]
