The static performance models are very important in evaluating thermal imaging systems.
静态性能模型对于热成像系统的评价是非常重要的。
This paper discusses in detail the scanning principle of infrared thermal imaging systems.
本文详细讨论了红外热像仪的扫描机理。
Because of many advantages, uncooled focal plane thermal imaging systems are widely used in both military and civil fields.
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。
Thermal imaging systems based on uncooled focal plane array detectors require their optical lens with a large relative aperture.
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。
The effect of field-of-view-search on the MRTD of thermal imaging systems is analyzed. A formula for the revision of MRTD is proposed.
分析了热像仪实际使用中视场搜索对最小可分辨温差MRTD的影响,提出了影响因素的修正公式。
The handheld thermal units are effective during both day and night and offer multiple interoperable capabilities with common thermal imaging systems.
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。
We believe the Chinese firm, Zhejiang Dali Technology Company Ltd., is actively selling its thermal imaging systems to Iranian defense entities.
我们认为,这家名为浙江大力技术有限公司的中国公司正在积极地将这些热成像系统卖给伊朗军工企业。
With the use of FPA, the influence of sampling effects on the thermal imaging systems is so evident that people have to modify the evaluation and testing of imaging systems.
随着FPA的广泛应用,采样效应对热成像系统的影响越来越突出,以致影响了采样热成像系统的评估和测试。
The evaluating method and MRTD mathematics model for staring thermal imaging systems with IR focal plane were studied, and the model was proved by experiments in the laboratory.
研究了红外焦平面凝视热成像系统的评估方法和评估MRTD数学模型,并在所建立的评估实验室中对数学模型的可行性进行了验证。
For this reason, several active or passive compensation mechanisms have to be appended to thermal imaging systems to compensate the performance degradation with temperature changes.
因此在红外成像系统中不得不加入主动或被动补偿机构,以补偿温度变化造成像面移动所引起的系统性能的降低。
'These orders highlight FLIR's position as a leading supplier of thermal imaging equipment to CBP and demonstrate the value of our systems to support their wide range of missions, ' says Earl R.
这些合同突出了FLIR作为CBP一个领先的热成像设备供应商的地位,证明了我公司的系统可以支持大范围的任务。
The diffractive optical elements(DOEs) used in imaging systems has many advantages, such as achromatization and thermal compensation besides the features of saving in mass and volume.
采用衍射光学元件除了能减小成像系统的体积和重量外 ,还具有许多传统光学元件无法比拟的优越性 ,如消色差和热补偿功能等。
The diffractive optical elements(DOEs) used in imaging systems has many advantages, such as achromatization and thermal compensation besides the features of saving in mass and volume.
采用衍射光学元件除了能减小成像系统的体积和重量外 ,还具有许多传统光学元件无法比拟的优越性 ,如消色差和热补偿功能等。
应用推荐