| 1. | Fiber optic light distribution radiation sensors
光纤光分布放射线感测器 |
| 2. | Standard of light distribution classity and lighting design parameter for interior luminaire
室内灯具的光分布分类和照明设计参数标准 |
| 3. | Standard for classification of light distribution and for design parameters of lighting for interior lamps
室内灯具的光分布分类和照明设计参数标准 |
| 4. | Then , the mathematical models corresponding to the tri - fiber sensors and six types of fiber bundle sensors are established with the aid of fiber pair model
根据所得到的准高斯反射光分布模型,建立了通用的三光纤传感器的强度调制函数。 |
| 5. | Change of the spatial distribution of a beam of radiation when it is deviated in many directions by a surface or by a medium , without change of frequency of its monochromatic components
光束被某一表面或介质改变为多种方向,而不改变其单色光的频率时,所发生的空间光分布的改变。 |
| 6. | The reflective light filed distribution is studied in great detail with diffraction approach , which is based on the quasi - gaussian beam model of the light emitted from the multimode transmitting fiber and conclusions drawn by beckmann on the scattering light from random rough reflector
引入了beckmann关于随机粗糙表面光散射理论的相关研究结论,基于衍射分析法建立了准高斯光经过反射面后的反射光分布模型。 |
| 7. | In order to meet the design and optimization requirement of developing led light , an effective method that is befitting in this work should be found out . in this article , the traditional led ' s light distribution is obtained through carrying out simulation of led ' s optical encapsulated structure by means of monte carlo method but not geometry optics method
Led封装光学结构采用mc方法模拟可以输出光分布点图、光照度分布三维图、光强分布(配光分布)图三种有用的光分布信息,也可以输出具体的统计光子数值。 |
| 8. | Using kalman model and gaussian random phase - screen fft , we simulated the distribution of illumination beam through long distance atmosphere and its frequency character . also other facts in simulation were analysised , such as reflection of niaterial under natural lighting , point spread function of optic system and electronic noise
文中用kalman谱模型和菲涅尔衍射的fft技术实现了照明光大气传输的数值模拟,分析了照明光分布规律,并提出了材料反射特性、光学系统、采集系统和图像噪声的模拟方法。 |
