论述了一种红外热成像系统的设计。
A kind of design of the infrared imaging system was discussed.
红外热成像系统有着广泛的民用和军用市场。
Infrared thermal imaging system is used widely in both military field and civilian field for its many merits.
根据眼脑视觉理论,研究了热成像系统角放大率。
Selection of angle magnification for a thermal imaging system (TIS) based on the theory of human vision is investigated.
静态性能模型对于热成像系统的评价是非常重要的。
The static performance models are very important in evaluating thermal imaging systems.
噪声等效温差是红外热成像系统主要性能参数之一。
The Noise Equivalent Temperature Difference(NETD)is a main function parameter of infrared imaging systems.
所述方法可用于热成像系统点目标性能预测与评估。
The method is used for forecast and evaluation of thermal imaging system for point target performance.
文章主要对凝视红外焦平面热成像系统的噪声进行研究。
In this paper, the noise of staring IR focal plane array thermal imaging system is discussed.
红外热成像系统在军事和民用领域都发挥着重要的作用。
The infrared thermal imaging system plays an important role in military and civilian affairs.
非制冷热成像系统的基础理论研究是研制红外热成像系统的基础。
Studying the fundamental principles of uncooled infrared imaging systems is the basis of developing infrared imaging systems.
视距是热成像系统的主要战术指标,对系统的设计具有决定性作用。
Visual range is a primary tactical index and has decisive influence on the design of system.
算法的实现对提高扫描型热成像系统的技术性能指标具有重要意义。
The realization of the algorithm has great significance in improving the technological performance of scanning thermal imaging system.
噪声等效温差是一个用以标志红外热成像系统灵敏度的广泛使用的参数。
The Noise Equivalent Temperature Difference(NETD) is a widely used performance parameter that characterizes the sensitivity of infrared imaging systems.
利用TTM红外热成像系统对208例正常青年男女进行体表温度测量。
The skin surface temperature of 208 normal youth was measured by Thermal Texture Maps (TTM).
这种手持式终端可以在白天和黑夜使用,并提供与通用热成像系统的多种互操作能力。
The handheld thermal units are effective during both day and night and offer multiple interoperable capabilities with common thermal imaging systems.
在热成像系统中,存在信号源动态范围大,而显示输出动态范围小的矛盾。
There is a contradiction between the wide dynamic range of IR source and the small of it for display in the thermal imaging system.
为改善已研制光学微扫描显微热成像系统的空间分辩力,微扫描零点需要确定。
In order to improve the spatial resolution of the optical microscanning thermal microscopic system, the zero of microscanning should be determined to complete the oversample reconstruction.
使用NETD方法对在相应条件下不同距离上的热成像系统的信噪比进行了估算。
The SNR of the thermal imaging system at different distance is calculated by using the means of NETD.
导出了适用于近距离面目标热成像系统的微分光谱匹配因数(亦称质量因数)且。
The differential spectral matching factor M of the thermal imaging system for detecting low temperethe plane targets in short distance has ho derived in this paper.
基于非致冷焦平面阵列探测器的热成像系统,要求光学系统具有足够大的相对孔径。
Thermal imaging systems based on uncooled focal plane array detectors require their optical lens with a large relative aperture.
建立了红外热成像系统,并在室外果园对成熟柑桔实时采集了4 5幅红外热图像。
About 45 infrared thermal images of citrus on trees were captured from the citrus orchard.
在热成像系统总体设计以及电子处理系统设计时,必须综合考虑斩波器各参数的影响。
We should synthetically consider the effect of the chopper's parameters when designing the whole thermal imaging system and electronic processing system.
它还配有热成像系统以便定位生还者,同时,它还能通过配备的云台摄像机来记录障碍物。
It has a thermal camera to locate survivors and a pan-and-tilt camera to record obstacles.
非致冷焦平面热成像系统由于自身的众多优点,在诸多军事和民用领域都具有广泛的应用。
Because of many advantages, uncooled focal plane thermal imaging systems are widely used in both military and civil fields.
针对理想光子探测器和理想热探测器,探讨了显微热成像系统的NETD和NEED的关系。
Based on the ideal photon detector and ideal thermal detector, the relationship between NETD and NEED is studied.
用红外热成像系统直接获得的热像图,是被测器件表面辐射温度的分布,并不是真实温度的分布。
The thermograph obtained by a thermal imaging system is only the distribution of radiant temperature of the surface of measured devices, not the true temperature.
系统经外场实际测试的结果表明,使用了金属反射镜的红外热成像系统达到了光学系统的设计指标。
The environmental and the actual condition tests show that the infrared system with metallic mirrors has met the requirement of optical design.
利用光学傅立叶分析的方法可以把热成像系统看作线性滤波器,并建立热成像系统的静态性能模型。
The thermal imaging system can be regard as a linear filter and its static performance model can be established by optical Fourier analytical method.
研究了非制冷热成像系统功耗产生的主要原因,提出了一种具有低功耗特点的多工作温度热成像系统。
The reasons why thermal imaging system consumes power were analyzed, and a design scheme of lower power consumption thermal imaging system operating at multiple temperatures was presented.
研究了非制冷热成像系统功耗产生的主要原因,提出了一种具有低功耗特点的多工作温度热成像系统。
The reasons why thermal imaging system consumes power were analyzed, and a design scheme of lower power consumption thermal imaging system operating at multiple temperatures was presented.
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