非制冷红外成像技术由于其成本低可考性好而倍受关注。
Uncool IR imaging technology, because of its low cost and high credibility, has attracted more and more attention.
光学读出非制冷红外成像技术因其低成本和高性能近年来广泛受到关注。
Optical read-out uncooled infrared imaging technique has attracted much attention in recent years due to its low cost and high performance.
为此本文对红外图像算法进行了研究,并设计了非制冷红外成像系统的图像算法评估系统。
In this paper, the evaluating system of imaging algorithm for uncooled infrared thermal imaging system was designed.
迷你Colibrì多传感器系统配备热成像仪(红外非制冷)、电视成像仪(TVC)和激光测距设备。
The Mini Colibrì multi sensor system is equipped with a thermal camera (IR uncooled), TV camera (TVC) and laser range finder.
采用SOPC技术可使非制冷焦平面红外成像系统体积更小、功耗更低、性能更稳定。
With SOPC technology uncooled focal plane infrared(IR)imaging system has smaller size, lower power consumption and better performance.
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.
基于非制冷红外焦平面列阵(ufpa)探测器件进行了气象测云红外成像系统的光学设计、结构设计与电路设计,对系统光学设计结果进行详细分析。
On the basis of Uncool infrared Focal Plane Array (UFPA) detector, the optics, structure and the circuit of the infrared imaging system for cloud meteorological observation are designed.
利用四路红外非制冷焦平面探测器、大视场光学系统、窄带滤光片和信号处理系统,构成了凝视成像激光探测与告警系统。
A staring imaging laser detecting and warning system is formed by using 4-channel uncooled infrared focal plane detectors, large field optical system, narrow band filters and signal processing system.
利用四路红外非制冷焦平面探测器、大视场光学系统、窄带滤光片和信号处理系统,构成了凝视成像激光探测与告警系统。
A staring imaging laser detecting and warning system is formed by using 4-channel uncooled infrared focal plane detectors, large field optical system, narrow band filters and signal processing system.
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