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基于ZEMAX的仿生DRA复眼阵列的仿真与分析
Simulation and Analysis of the Bionic DRA Compound Eyes Based on the ZEMAX Software
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作 者:曹卫达[1,2] 唐军[1,2] 王晨光[1,2] 丁宇凯[1,2] 王飞[1,2] 翟超[1,2] 刘俊[1,2]
CAO Weida, TANG Jun, WANG Chenguang, DING Yukai, WANG Fei, ZHAI Chao, LIU Jun( 1. Key Laboratory of Instrumentation Science & Dynamic Measurement(Ministry of Education); 2. Science and Technology on Electronic Test & Measurement Laboratory(Ministry of Education), North University of China, Taiyuan 030051, China )
机构地区:[1]中北大学仪器科学与动态测试教育部重点实验室,太原030051 [2]中北大学电子测试技术重点实验室,太原030051
出 处:《光电工程》 CSCD 2014年第41卷第5期 83-88页,共6页
Opto-Electronic Engineering
基 金:国家973子课题(2012CB723404)
摘 要:昆虫DRA区域复眼阵列可以接收天空偏振光,并将包含其中的偏振信息提取出来,使昆虫复眼具备导航的功能;根据生物解剖学得出的DRA复眼阵列结构,提出一种采用MEMS工艺制作的简化阵列结构,其体积小、质量轻、视角大,通过拼合可以实现180°天空区域的偏振信息的完整获取;并在ZEMAX中建立了DRA复眼阵列模型,通过仿真分析得出此DRA复眼阵列模型采用的材料及结构合理,可以用来检测天空光偏振分布模式(E-矢量分布模式)。
Compound array in the DRA area of insects can receive the polarized light in the sky and abstract its polarization information, which enable the insects to navigate. According to the structure of DRA compound array elicited from biological anatomy, we put forward a kind of simplified array architecture made by MEMS technology, which has small volume, light weight, large visual angle and can perfectly obtain the polarization information of the sky all through 180° by combination. Then, we build the model of DRA compound array in ZEMAX, and educe that the material and structure of the model of DRA compound array are reasonable and can be used to detect the polarization information of the sky light effectively.
关键词:仿生DRA复眼阵列 E-矢量 晶锥孔 MEMS 混合序列
bio-inspired DRA compound eyes ;E-vector ;crystal cones cavity ;MEMS ;mixed sequential ; |
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