红外与激光工程
紅外與激光工程
홍외여격광공정
INFRARED AND LASER ENGINEERING
2010年
2期
260-265
,共6页
宋雪平%贾晓东%覃一凡%刘锋%高怀举
宋雪平%賈曉東%覃一凡%劉鋒%高懷舉
송설평%가효동%담일범%류봉%고부거
激光%云雾%散射特性%试验研究
激光%雲霧%散射特性%試驗研究
격광%운무%산사특성%시험연구
Laser%Fog%Scattering characteristic%Experiment research
激光具有单色性好、相干性强、准直性高以及高亮度、大功率等特点,在通信、航天、遥感、测距和监测等多领域得到了广泛应用.但是,激光容易受自然环境的影响,尤其是云雾天气.激光在云雾中传输时会受到云雾的衰减、散射等作用,基于云雾的多变性,研究的试验条件很难满足,难度较大.文中重点论述了云雾的物理特性、激光与云雾的作用机理和云雾对激光的后向散射特性:利用激光回波信号高速数据采集及存储系统,对云雾的后向散射回波信号进行实时采集,并采用数字信号处理软件对采集的激光回波信号进行统计分析,验证了云雾对激光后向散射特性的理论分析结论,并对云雾和目标的反射统计特性进行了初步分析.
激光具有單色性好、相榦性彊、準直性高以及高亮度、大功率等特點,在通信、航天、遙感、測距和鑑測等多領域得到瞭廣汎應用.但是,激光容易受自然環境的影響,尤其是雲霧天氣.激光在雲霧中傳輸時會受到雲霧的衰減、散射等作用,基于雲霧的多變性,研究的試驗條件很難滿足,難度較大.文中重點論述瞭雲霧的物理特性、激光與雲霧的作用機理和雲霧對激光的後嚮散射特性:利用激光迴波信號高速數據採集及存儲繫統,對雲霧的後嚮散射迴波信號進行實時採集,併採用數字信號處理軟件對採集的激光迴波信號進行統計分析,驗證瞭雲霧對激光後嚮散射特性的理論分析結論,併對雲霧和目標的反射統計特性進行瞭初步分析.
격광구유단색성호、상간성강、준직성고이급고량도、대공솔등특점,재통신、항천、요감、측거화감측등다영역득도료엄범응용.단시,격광용역수자연배경적영향,우기시운무천기.격광재운무중전수시회수도운무적쇠감、산사등작용,기우운무적다변성,연구적시험조건흔난만족,난도교대.문중중점논술료운무적물리특성、격광여운무적작용궤리화운무대격광적후향산사특성:이용격광회파신호고속수거채집급존저계통,대운무적후향산사회파신호진행실시채집,병채용수자신호처리연건대채집적격광회파신호진행통계분석,험증료운무대격광후향산사특성적이론분석결론,병대운무화목표적반사통계특성진행료초보분석.
Due to the C haracteristics of good homochromatism,swong coherence,high collimation,brightness and power,laser is widely used in many fields such as communication,aerospace,remote sensing,ranging and monitoring But laser is easy to be affected by the nature environment,especially the weather of cloud and fog.Laser will be attenuated and scattered by aerosol particles while passing through the cloud and fog,yet it's hard to meet the experiment condition because of fog's levity.The physical character of fog,the action mechanism of laser and fog,laser backscattering characteristic of fog were discussed Using high speed.data acquisition system of laser echo and saving system as core experiment equipment,the backscattering echo of fog was collected in real time,and the echo was statistically analyzed by digital signal processing software The theory analysis of laser backscattering characteristic of fog was validated,and the elementary analysis of reflective statistic characteristic of fog and target was carried out.