Performance test of low light level (LLL) CCD TV system is an important part in LLL imaging.
微光CCD电视系统性能测试是微光成象技术的重要组成部分。
At the same time, the LLL night vision device has also other active and passive interferences.
同时,微光夜视还受到其它有源和无源干扰。
Therefore, an important topic in the LLL night vision technology is how to counter against el…
因此,激光夜视技术面临如何对抗光电干扰,尤其是激光加固的重要课题。
An LLL Leader or lactation consultant will be able to help you obtain one and learn to use it.
国际母乳会(LLL)哺乳顾问可帮您获得这种饲管并教您。
After analysis of the results, some ways of improving detective ability of LLL-CCD are proposed.
分析这个结果后提出了提高CCD微光图像探测能力的几种途径。
LLL experience shows that children parented this way become quite secure and independent as they grow.
国际母乳会的经验表明:这种方式下养育的宝宝长大后有很好的安全感和独立性。
The performance, composition and operation principle of a new type of LLL night vision device are introduced.
介绍了一种新型微光夜视仪的性能指标、组成及工作原理。
In LLL night vision instrument, objective and image intensifier are two main parts of effecting its performance.
微光夜视仪中的物镜和像增强器是影响其性能的两个主要部件。
Therefore, an important topic in the LLL night vision technology is how to counter against electro-optical interferences.
因此,激光夜视技术面临如何对抗光电干扰,尤其是激光加固的重要课题。
The features of LLL image and laser assistant vision image are different, because the spectrums they respond are different.
因为近红外激光助视图像与微光图像响应的光谱波段不同,所以两类图像有各自的信息特征。
The effect of LLL night vision system on the target features is analyzed. Finally, LLL night vision performance is studied.
分析微光夜视系统对目标特性的改变,探讨提高微光夜视性能的对策。
The method and realization of real-time fusing and displaying for LLL image and data of pulse laser rangefinder are studied.
本文针对微光图像与脉冲激光测距仪的数据信息实时融合与显示的方法及其实现进行了研究。
A novel real time adaptive image accumulating technique for low light level (LLL) image enhancement is advanced in this paper.
本文研究了基于灰度变换的自适应实时图像帧积分技术及其在微光电视系统中的应用。
In order to improve the performance of LLL night vision instrument, the property of LLL objective analyzed and discussed in the paper.
为了提高微光夜视仪的性能,本文对微光物镜的特性作了分析探讨。
It is very important to design practical and real-time processing hardware systems, which can be applied to both infrared and LLL images.
针对红外图像和微光图像的不同噪声特点,设计实用、实时的噪声处理系统显得十分重要。
This l-reduced lattice reduction algorithm can find vectors shorter than ones got by the standard LLL algorithm which is widely used in this field.
利用这种新型算法找到的短向量比使用标准LLL规约算法求得的短向量更加接近格中的最短非零向量。
Outfield experiments have confirmed that the target discovered distance of sample devices is by far larger than traditional LLL night vision device.
样机已通过外场试验证实了其目标发现距离远大于传统的微光夜视仪。本文还重点介绍了与该夜视仪相配合的云台控制系统。
For solving the zero displacement movement problem of low-level-light (LLL) sight device, the regulating structure of LLL sight device reticle was given.
为解决微光瞄准镜零位移走动量问题,给出了瞄准镜分划板调节结构。
It overcomes shortages of the traditional LLL night vision which can't work in the completely dark environment or the condition that the light is not enough.
此它利用激光辅助照明装置克服了传统的微光夜视仪在全黑天或光照度不足条件下无法工作等不足。
Low-level-light(LLL)weapon sight measurement technologies based on multiple environments testing conditions are always concerned by military equipments manufacturers.
基于多环境试验条件下的微光枪瞄检测技术一直是军备生产所关注的问题。
In the technique of fusion on night vision images, reformative algorithms of false color fusion on LLL and IR images and a series of derivative algorithms are put forward.
在夜视图像融合技术方面,提出了微光图像和红外图像假彩色融合的改进算法,并探索研究出一系列衍生算法。
Hawks Over China depicts Arthur Chin, America's Second Chinese WW2 Ace flying a Curtiss Hawk LLL in combat with Japanese bombers. Arthur Chin was born in Portland, Oregon.
中国上空的鹰,美国的二战时期的美国飞虎队王牌飞行柯蒂斯·霍克微光在与日本轰炸机战斗。阿瑟下巴出生于俄勒冈州的波特兰。
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.
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。
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.
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。
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