红外与激光工程
紅外與激光工程
홍외여격광공정
INFRARED AND LASER ENGINEERING
2015年
3期
1061-1067
,共7页
母一宁%王贺%李平%姜会林
母一寧%王賀%李平%薑會林
모일저%왕하%리평%강회림
无线激光通信%野外对准%光轴检测
無線激光通信%野外對準%光軸檢測
무선격광통신%야외대준%광축검측
wireless laser communication%wild pointing%axis detection
入射激光光轴检测分辨率主要由固有分辨率和细分精度两部分组成,但大气信道二次调制会直接引入误差进而影响光轴检测的检测精度。为了降低光轴检测系统对大气信道环境的敏感程度,首先CCD光轴检测系统和四象限(4QD)光轴检测系统作为两种典型的光轴检测系统其检测模型被分析,并推导在大气环境中其分辨率、固有分辨率、细分精度与光斑尺寸之间的关系。接着以4QD检测模型为例,指出信标光的信噪比和光轴偏移量是影响光轴检测系统的重要技术参数。最后通过一个野外光轴对准试验验证了光轴细分精度对大气干扰敏感,而固有分辨率受大气影响不大,可以改变光斑尺寸来改善光轴检测系统对大气干扰的敏感程度。
入射激光光軸檢測分辨率主要由固有分辨率和細分精度兩部分組成,但大氣信道二次調製會直接引入誤差進而影響光軸檢測的檢測精度。為瞭降低光軸檢測繫統對大氣信道環境的敏感程度,首先CCD光軸檢測繫統和四象限(4QD)光軸檢測繫統作為兩種典型的光軸檢測繫統其檢測模型被分析,併推導在大氣環境中其分辨率、固有分辨率、細分精度與光斑呎吋之間的關繫。接著以4QD檢測模型為例,指齣信標光的信譟比和光軸偏移量是影響光軸檢測繫統的重要技術參數。最後通過一箇野外光軸對準試驗驗證瞭光軸細分精度對大氣榦擾敏感,而固有分辨率受大氣影響不大,可以改變光斑呎吋來改善光軸檢測繫統對大氣榦擾的敏感程度。
입사격광광축검측분변솔주요유고유분변솔화세분정도량부분조성,단대기신도이차조제회직접인입오차진이영향광축검측적검측정도。위료강저광축검측계통대대기신도배경적민감정도,수선CCD광축검측계통화사상한(4QD)광축검측계통작위량충전형적광축검측계통기검측모형피분석,병추도재대기배경중기분변솔、고유분변솔、세분정도여광반척촌지간적관계。접착이4QD검측모형위례,지출신표광적신조비화광축편이량시영향광축검측계통적중요기술삼수。최후통과일개야외광축대준시험험증료광축세분정도대대기간우민감,이고유분변솔수대기영향불대,가이개변광반척촌래개선광축검측계통대대기간우적민감정도。
Axis detection resolution was divided into two sections, the first being the inherent optical resolution of the case and the second the case subdivided accuracy, however, atmospheric channel secondary modulation can directly introduced into detection error, and moreover, influence detection precision. In order to reduce sensitive degree of axis detection system for atmospheric interference, firstly, CCD system and 4QD system as two typical axis detection models were analyzed; the relationship among resolution and inherent optical resolution and subdivided accuracy and beam length was deduced. Afterwards, based on the example of 4QD axis detection system, through the analysis of restricted constraint condition of four- quadrant electro- optical inspection model in atmospheric channel,SNR of distortions and axis offset are two main technical parameters to affect electro- optical inspection system. Finally, the point, subdivided accuracy of axis detection was sensitive to atmospheric interference and inherent optical resolution was little influenced by atmospheric interference. Therefore, changing beam length can improve sensitive degree of axis detection system for atmospheric interference.