红外与激光工程
紅外與激光工程
홍외여격광공정
INFRARED AND LASER ENGINEERING
2014年
6期
1972-1976
,共5页
多光谱仿真%数据立方体%Phong模型%BRDF
多光譜倣真%數據立方體%Phong模型%BRDF
다광보방진%수거립방체%Phong모형%BRDF
multispectral simulation%data cube%Phong model%BRDF
针对光电武器研制过程中多光谱图像获取困难的问题,提出了一种通过三维立体场景生成红外多光谱仿真图像的方法。该方法能够生成三维场景任意角度的红外仿真图像,并形成特定波长范围的数据立方体。在3~5μm范围内对特定目标进行了仿真实验,以0.005μm为步长生成了包含401张红外图像的数据立方体。为体现反射光的方向特性,推导了一种基于Phong模型的BRDF模型,并应用于对方向性较强的太阳直接辐射的反射在红外波段的计算,并在3~5μm范围生成了具有方向特性的红外仿真图像立方体。一系列实验数据表明,该仿真方法可快速生成红外多光谱图像数据立方体,而BRDF模型能够真实地反映反射的方向特性,提高了仿真图像的逼真度。
針對光電武器研製過程中多光譜圖像穫取睏難的問題,提齣瞭一種通過三維立體場景生成紅外多光譜倣真圖像的方法。該方法能夠生成三維場景任意角度的紅外倣真圖像,併形成特定波長範圍的數據立方體。在3~5μm範圍內對特定目標進行瞭倣真實驗,以0.005μm為步長生成瞭包含401張紅外圖像的數據立方體。為體現反射光的方嚮特性,推導瞭一種基于Phong模型的BRDF模型,併應用于對方嚮性較彊的太暘直接輻射的反射在紅外波段的計算,併在3~5μm範圍生成瞭具有方嚮特性的紅外倣真圖像立方體。一繫列實驗數據錶明,該倣真方法可快速生成紅外多光譜圖像數據立方體,而BRDF模型能夠真實地反映反射的方嚮特性,提高瞭倣真圖像的逼真度。
침대광전무기연제과정중다광보도상획취곤난적문제,제출료일충통과삼유입체장경생성홍외다광보방진도상적방법。해방법능구생성삼유장경임의각도적홍외방진도상,병형성특정파장범위적수거립방체。재3~5μm범위내대특정목표진행료방진실험,이0.005μm위보장생성료포함401장홍외도상적수거립방체。위체현반사광적방향특성,추도료일충기우Phong모형적BRDF모형,병응용우대방향성교강적태양직접복사적반사재홍외파단적계산,병재3~5μm범위생성료구유방향특성적홍외방진도상립방체。일계렬실험수거표명,해방진방법가쾌속생성홍외다광보도상수거립방체,이BRDF모형능구진실지반영반사적방향특성,제고료방진도상적핍진도。
In order to solve the acquisition problem of the multispectral images in the process of the research on Optical-Electronic weapons, a method of generating infrared multispectral simulation images by 3D scene was presented. The infrared image at any observation angle of the scene and a data cube of specific waveband could be generated by the method. Some experiments were done in waveband 3- 5μm to generate a data cube involving 401 infrared simulation images in the wavelength step 0.005 μm. A BRDF calculation model based on the Phong model was derived and used in the calculation of the reflection intensity of solar direct radiation which had strong directionality, and a data cube in waveband 3- 5 μm involving infrared images with directionality was generated when the BRDF calculation mode was applied. The experiments results show that the simulation method presented in this paper could generate infrared multispectral images data cube rapidly, and the BRDF calculation model could reflect the directionality of the reflected light, which improves the fidelity of the simulation images.