红外与激光工程
紅外與激光工程
홍외여격광공정
INFRARED AND LASER ENGINEERING
2014年
3期
772-778
,共7页
王吉晖%王小微%陈松林%金伟其
王吉暉%王小微%陳鬆林%金偉其
왕길휘%왕소미%진송림%금위기
热成像系统%MRTD%自然背景%信息量模型
熱成像繫統%MRTD%自然揹景%信息量模型
열성상계통%MRTD%자연배경%신식량모형
thermal imaging systems%MRTD%nature background%information quantity model
为了研究自然环境因素对热成像系统综合性能的影响,在MRTD信道宽度热成像系统综合性能评价模型基础上,比对TTP模型,引入自然背景噪声因子,构建了基于自然背景的热成像系统综合性能信息量评价模型,通过实验给出了自然背景噪声因子的确定方法,并建立了模型的归一化形式。以典型场景为例,通过实验分析了不同自然背景对热成像系统目标信息量获取的影响,并与TTP模型的分析结果进行比较,二者具有较好的一致性。实验表明基于自然背景的热成像系统综合性能信息量评价模型能够较好地反映自然背景复杂度对系统综合性能的影响,可以应用于系统性能评价。
為瞭研究自然環境因素對熱成像繫統綜閤性能的影響,在MRTD信道寬度熱成像繫統綜閤性能評價模型基礎上,比對TTP模型,引入自然揹景譟聲因子,構建瞭基于自然揹景的熱成像繫統綜閤性能信息量評價模型,通過實驗給齣瞭自然揹景譟聲因子的確定方法,併建立瞭模型的歸一化形式。以典型場景為例,通過實驗分析瞭不同自然揹景對熱成像繫統目標信息量穫取的影響,併與TTP模型的分析結果進行比較,二者具有較好的一緻性。實驗錶明基于自然揹景的熱成像繫統綜閤性能信息量評價模型能夠較好地反映自然揹景複雜度對繫統綜閤性能的影響,可以應用于繫統性能評價。
위료연구자연배경인소대열성상계통종합성능적영향,재MRTD신도관도열성상계통종합성능평개모형기출상,비대TTP모형,인입자연배경조성인자,구건료기우자연배경적열성상계통종합성능신식량평개모형,통과실험급출료자연배경조성인자적학정방법,병건립료모형적귀일화형식。이전형장경위례,통과실험분석료불동자연배경대열성상계통목표신식량획취적영향,병여TTP모형적분석결과진행비교,이자구유교호적일치성。실험표명기우자연배경적열성상계통종합성능신식량평개모형능구교호지반영자연배경복잡도대계통종합성능적영향,가이응용우계통성능평개。
In order to research the impact of nature environment on the synthesized performance of thermal imaging systems, a nature background noise factor was presented and introduced into MRTD-CW model comparing with Target Task Performance (TTP) model. An information quantity model based on MRTD-CW model with the nature background factor was proposed to evaluate the impact of nature environment on the synthesized performance of thermal imaging systems. The algorithm of the nature background noise factor was defined by experiments and the normalized form of the information quantity model with the nature noise factor was given. Taking typical scenes as examples, the impact of nature background noise on the synthesized performance of thermal imaging systems was analyzed by the information quantity model with nature background noise factor, and which was consistent with those of TTP model. Results show that the information quantity model with nature background noise factor can analyze the impact of nature background complexity on the synthesized performance of thermal imaging systems and can be applied to the evaluation of thermal imaging systems.