中国激光
中國激光
중국격광
CHINESE JOURNAL OF LASERS
2009年
11期
3011-3014
,共4页
散射%双向反射分布函数%光纤%反射测量
散射%雙嚮反射分佈函數%光纖%反射測量
산사%쌍향반사분포함수%광섬%반사측량
scattering%bidirectional reflectance distribution function%optical fiber%reflectance measurement
提出了一种基于半球空间光纤阵列的双向反射分布函数(BRDF)测量方法与系统.将多根光纤组成的阵列均匀分布于一半球面上,使球心处物体表面反射的光在三维空间中的角分布转换为同一平面上的二维图像,经CCD采集及相应的数据处理,可实现对物体表面双向反射分布函数的快速测量.同时,利用光纤将照射激光束传输到物体表面待测点,并通过光纤的弯曲角度可改变光束的入射角.利用该测量系统对不同材质、不同加工工艺的物体表面的激光反射分布进行了初步的测量和分析.结果表明,相比传统的扫描式测量系统,该测量系统在提高测量速度的同时,避免了由于光源功率的起伏和探测器响应度的涨落所引起的测量误差,且结构简单,使用方便.
提齣瞭一種基于半毬空間光纖陣列的雙嚮反射分佈函數(BRDF)測量方法與繫統.將多根光纖組成的陣列均勻分佈于一半毬麵上,使毬心處物體錶麵反射的光在三維空間中的角分佈轉換為同一平麵上的二維圖像,經CCD採集及相應的數據處理,可實現對物體錶麵雙嚮反射分佈函數的快速測量.同時,利用光纖將照射激光束傳輸到物體錶麵待測點,併通過光纖的彎麯角度可改變光束的入射角.利用該測量繫統對不同材質、不同加工工藝的物體錶麵的激光反射分佈進行瞭初步的測量和分析.結果錶明,相比傳統的掃描式測量繫統,該測量繫統在提高測量速度的同時,避免瞭由于光源功率的起伏和探測器響應度的漲落所引起的測量誤差,且結構簡單,使用方便.
제출료일충기우반구공간광섬진렬적쌍향반사분포함수(BRDF)측량방법여계통.장다근광섬조성적진렬균균분포우일반구면상,사구심처물체표면반사적광재삼유공간중적각분포전환위동일평면상적이유도상,경CCD채집급상응적수거처리,가실현대물체표면쌍향반사분포함수적쾌속측량.동시,이용광섬장조사격광속전수도물체표면대측점,병통과광섬적만곡각도가개변광속적입사각.이용해측량계통대불동재질、불동가공공예적물체표면적격광반사분포진행료초보적측량화분석.결과표명,상비전통적소묘식측량계통,해측량계통재제고측량속도적동시,피면료유우광원공솔적기복화탐측기향응도적창락소인기적측량오차,차결구간단,사용방편.
A novel approach and system for measurement of bidirectional reflectance distribution function (BRDF) based on optical fiber array in hemispheric space are proposed. With a fiber array composed of numerous multimode fibers located uniformly in a hemisphere, the angular distribution of surface optical reflectance in tri-dimensional space is transformed into a two-dimensional planar image. By collecting the image using a CCD camera and going though a corresponding data processing, a fast measurement of BRDF can be realized. Furthermore, the laser beam is transmitted and guided by fibers to irradiate the sample surface in various incidence angles. Primary measurements and analysis of surface reflectance of varied substance along with various machining process are carried out with this system. The results indicate that, comparing with conventional measurement systems, this novel one can avoid the measuring errors generated by the fluctuation of laser power and the sensitivity of the detector, as well as dramatically shorten the acquisition time. In addition, a compact configuration eases the measurement procedure consumedly.