The non uniformity in the infrared focal plane array has limited the quality of infrared imaging system.
红外焦平面阵列的非均匀性噪声是制约红外成像质量的主要因素。
A random field target detection technology for infrared focal plane array (FPA) imaging is also proposed.
对焦平面纤外图像提出了一种概率场目标检测技术。
The nonuniformity noise in the infrared focal plane array is a major factor which limits the quality of infrared image.
红外焦平面阵列的非均匀性噪声是制约红外成像质量的主要因素。
The nonuniformity of an infrared focal plane array (IRFPA) has an influence on the performance of an imaging system with the IRFPA.
红外焦平面阵列的非均匀性影响了红外焦平面阵列成像系统的性能。
The company will support the Infrared Focal Plane Array Technology branch of the Army's Research Development and Engineering Command.
该公司将支持陆军研究开发工程指挥部的红外焦平面阵列技术。
Because of the features of small size and not being cooled, an uncooled infrared focal plane array detector has a broad application prospect.
非致冷红外焦平面阵列探测器具备体积小、无需致冷的优点,具有广泛的应用前景。
The study of the infrared focal plane array based on the narrow gap semiconductors HgCdTe is a hot topic in the field of advanced infrared optoelectronics.
窄禁带半导体碲镉汞红外焦平面列阵研究是当代红外光电子技术的前沿。
This paper reports the progress of the project: fundamental research for application of the physics of optoelectronics on HgCdTe infrared focal plane array.
本文介绍了中科院“九五”基础性研究重大项目“碲镉汞红外焦平面光电子物理的应用基础研究”的进展情况。
Infrared focal plane array (IRFPA) is the core component of infrared technology, and has been used widely in many fields of the military, science, astronomy, and civil use.
红外焦平面阵列作为红外技术的核心部件,在军事、科学、天文以及民用等领域都有着重要和广泛的应用。
The company engages in the research and development as well as the production of the core chip technology of uncooled infrared focal plane array (FPA) and the infrared cameras.
公司主要致力于非制冷红外焦平面探测器核心FPA芯片技术及其红外热像仪的研发和生产。
An InSb infrared focal plane array (IRFPA) detector is required to operate in the temperature range from room temperature to 77k for several thousand times in its lifetime period.
锑化铟红外焦平面探测器将要在寿命周期中于室温到77K的温度范围内工作几千次。
The parameters and interface of an uncooled infrared focal plane array are analyzed. According to the interface requirements of the focal plane array, a drive circuit is designed.
分析了非致冷红外焦平面阵列的各项参数及接口,根据焦平面的接口要求设计了驱动电路。
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.
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。
With the development of infrared focal plane array technology, there are higher requirements in the field of parameters testing and performance evaluation of infrared focal plane array detector.
本文围绕红外焦平面阵列探测器的性能参数测试方法开展研究工作。
At last, some of the problems encountered in the process of testing are summarized, and a feasible direction is provided to improve the testing system for the infrared focal plane array detectors.
最后总结了在测试过程中遇到的一些问题,为红外探测器测试系统的改进提出了可行性的方向。
A technique plan of infrared imaging with the focal plane array of ferroelectric ceramics is advanced.
提出了铁电陶瓷焦平面阵列红外成像的技术方案,重点讨论了信号处理技术。
Then, it researched some main methods of nonuniformity correction and detecting approach and compensation of blind-pixel of focal plane array, and the techniques of infrared image processing.
其次研究了几种主要的非均匀校正方法以及焦平面阵列元的盲元检测和补偿的方法,对红外图像处理技术做了研究。
Second chapter introduced the infrared imagery technology base and the noise originates outside of infrared focal-plane array (IRFPA), as well as each kind of noise influence to the infrared image.
第二章介绍了红外成像技术基础及红外焦平面阵列(IRFPA)噪声来源,以及各类噪声对红外图像的影响。
Second chapter introduced the infrared imagery technology base and the noise originates outside of infrared focal-plane array (IRFPA), as well as each kind of noise influence to the infrared image.
第二章介绍了红外成像技术基础及红外焦平面阵列(IRFPA)噪声来源,以及各类噪声对红外图像的影响。
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