介绍了用于水下反恐的水下微光成像系统,并对设计的关键技术进行了论述。
An underwater low light level imaging system for underwater Anti-terror is introduced and some key techniques are discussed.
将X射线成像技术和微光成像技术相结合,设计了组合新型X射线影像增强器。
By combining X-ray imaging technology and low light level imaging technology, the authors' research group designed the novel combined X-ray image intensifier.
设计方法成功应用于远程EMCCD图像采集系统中,并使系统能够在微光成像及辐射场诊断中应用。
The design has used in the remote EMCCD imaging system, which can be applied in the low light level imaging area and radiation diagnosis field.
在扩展微光成像探测性能方面还可以进一步开展散射影响下的理论、远距离主动成像系统等后继研究工作。
The farther work in the extension of the detection performance of L3 imaging system is to research the scatter imaging theory and the long distance active imaging system technology.
为了方便地计算三维噪声,提出了一种新的三维噪声计算方法,该方法对离散型微光成像系统三维噪声测量和质量评价具有十分重要的实用价值。
A new method was advanced for calculating 3-d noise expediently. The method has the practical merit for 3-d noise measurement and quality evaluation of discrete low-light-level imaging system.
作为夜视技术的主要技术途径,微光夜视和红外热成像技术在现代战争中具有重要的地位,掌握先进的夜视技术对于控制战场形势至关重要。
As main technological approaches of night vision technology, low_light level night vision and infrared thermal imaging have played important roles in modern war.
介绍了微光像增强器的主要性能指标及其对系统成像的影响。
The main performance parameters of low level light intensifiers and their effects on system imaging are introduced.
从微光图像的成像过程、灰度分布和像素空间与时间相关性等几个方面对微光图像特征作较系统的分析。
The characteristics of low light level (LLL) image were analyzed in aspects of imaging process gray level distribution and correlativity of picture element in space and time of LLL image.
二者的区别在于显微光子计数成像系统是噪声受限系统。
The difference of two systems is that the microscopic photon counting image system is a noise limited system.
EMCCD探测器能够在微光条件下,获得高质量的图像,把它应用到X射线数字成像系统能够提高成像的速度并获得高清晰图像。
It can enhance imaging speed and obtain high clear image that EMCCD detector can been used in X-Ray digital imaging system.
为提高头盔式微光夜视系统的成像质量,并满足整个夜视系统体积小、重量轻的指标要求,提出了非球面物镜系统的设计。
To improve the imaging quality of lens used in the helmet-mounted LLL night-vision system and make lens small in size, light in weight, the lens with the high order aspheric surface is designed.
为提高头盔式微光夜视系统的成像质量,并满足整个夜视系统体积小、重量轻的指标要求,提出了非球面物镜系统的设计。
To improve the imaging quality of lens used in the helmet-mounted LLL night-vision system and make lens small in size, light in weight, the lens with the high order aspheric surface is designed.
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