Selection of angle magnification for a thermal imaging system (TIS) based on the theory of human vision is investigated.
根据眼脑视觉理论,研究了热成像系统角放大率。
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。
Equation of detection range of thermal imaging system for point target is deduced and corrected.
推导和修正了热成像系统点目标客观探测距离方程,在此基础上,进一步推导出实验室仿真系统的测试原理,并给出了一个利用C#与Matlab进行探测距离计算的实例。
Based on minimum resolvable temperature difference(MRTD) channel width of thermal imaging systems and modulating transfer function(MTF) channel width of photoelectronic imaging systems,a comparative research between the evaluation methods for the general performance of thermal imaging systems is studied through simulation and experiments for an actual thermal imaging system.
在最小可分率温差(MRTD)信道宽度的热成像和调制传递函数(MTF)信道宽度的光电成像系统性能评价方法的基础上,通过实际热成像系统性能的理论模拟和实际观测试验,对比分析了两种方法对于评价热成像系统综合性能的一致性及系统主要参数变化对匹配效率的影响。
The first and second generation thermal imaging systems static performances were investigated and the performances predicting software was developed.
研究一、二代热成像系统的静态性能模型并编制计算软件包 。
It is well known that there exists an optimal angle magnification which can make the thermal imaging systems and human eye matching optimally,thus,the thermal imaging systems attain the optimal performance.
热成像系统与人眼之间存在最佳匹配问题,存在一个最佳的角放大率使人眼与成像系统达到最佳的匹配状态,使系统性能达到最佳。
The infrared thermal imaging system plays important action in military and civilian affairs.
无论是在军事上,还是商业上,红外热成像系统都发挥着重要的作用。
The infrared thermal imaging system has been widely applied in military and civilian affairs.
非制冷红外焦平面,以其价格低、可靠性高、体积小、功耗低等优势在红外热成像系统的发展中占据着重要地位。
Performance evaluation model for First-Generation thermal imaging system is derived based on human eye.
从信号检测的角度入手,推导出基于人眼视觉的一代热成像系统的性能评价模型MRTD。
Intelligent MRTD Testing for Thermal Imaging System Using ANN;
应用神经网络智能测量热成像系统MRTD
Uncooled Infrared Imaging System Based on FPGA
基于FPGA的非制冷红外热成像系统
Research on the Uncooled Infrared Focal Plane Array Thermal Camera System and Controlling Circuit;
非制冷红外焦平面热成像系统及控制电路研究
A Study for the Blind Pixels Correction of the IR Imager Based on 288x4 IR Focal Plane Arrays;
基于288x4红外焦平面热成像系统盲元补偿的研究
Research on Simulation of an Starring Thermal Infrared Imaging System Based on Vega
基于Vega的某凝视型红外热成像系统仿真研究
Inter-Frame Difference Oversample Reconstruction for Optical Microscanning Thermal Microscope Imaging System
显微热成像系统帧间差分过采样重构研究
Research on NETD Test of Infrared Imaging Systems
红外热成像系统噪声等效温差测试研究
STUDY ON SUB-PIXEL PROCESSING ALGORITHM FOR SCANNING FPA THERMAL IMAGING SYSTEM
扫描型焦平面热成像系统的亚像元处理算法研究
Aircraft Infrared Radiation Analysis and the Estimated Range of Infrared Imaging System;
飞行器红外特征分析与红外热成像系统作用距离的预估算方法
The Design and Realize of UFPA Thermal Camera System;
非制冷红外焦平面热成像系统硬件电路设计与实现
TOGS (Thermal Observation and Gunnery System)
热成像观察及射击系统
Research on the Imaging System and Reconstruction Algorithm of Photoacoutic and Thermoacoustic Tomography;
光声和热声成像系统及图像重建算法研究
Researching on Signals Acquisition System of Microwave Induced Thermoacoustic Tomography;
微波热声成像技术中热声信号采集系统研究
A Dual-band Color Imaging System for Visible and Thermal IR Images Based on Color Transfer in YUV Color Space
基于YUV空间色彩传递的可见光/热成像双通道彩色成像系统
Study of Imaging System of Microbolometer Focal Plane Arrays;
微测辐射热计焦平面阵列的成像系统研究
Research and Development of Medical Photothermographic System;
医用光热式胶片成像系统的研究和开发
Study on Test and Thermal Imaging Experiment System of IRFPA Based on Virtual Instrument;
基于虚拟仪器的IRFPA测试、热成像实验系统研究
The Infrared Dynamic Thermal Image System Based on the MOS-resistance Arrays;
基于MOS-电阻阵列的动态红外热像生成系统
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