“安梯基齐拉机器”有时被称为世界上第一台计算机。如今,科学家们用最新的高分辨率成像系统以及三维x光线断层摄影术对其进行了分析。
The Antikythera Mechanism, sometimes called the world's first computer, has now been examined with the latest in high-resolution imaging systems and three-dimensional X-ray tomography.
它复合了日光光谱成像技术,具有高分辨率光电传感器并带有机载处理系统能自动检测和识别目标。
It combines daytime hyperspectral imaging technology, featuring high-resolution electro-optic sensors, with an airborne processing system to automatically detect and identify targets.
本文对成像光谱仪数据信息提取和分类方法进行了探讨,提出了一个系统地对高分辨率成像光谱数据进行处理、分析、分类的方案。
This paper probes into data information extraction and classification methods for imaging spectrometer, puts a scheme to process and classify the information of imaging spectrometer.
仿真分析了基线的选取及其对信号相关性和高分辨率成像的影响,为分布式SAR系统的基线设计提供参考。
The choice of the baseline and its impact on the correlation, high resolution imaging are discussed by way of simulation, which provides reference for design of the distributed satellites SAR.
该电算化系统使用一个简易的摄像头,高分辨率的热成像传感器和一整套算法。
The computerised system uses a simple video camera, a high-resolution thermal imaging sensor and a suite of algorithms.
由多个小口径成像系统通过特殊排列综合而成的光学稀疏孔径系统是实现高分辨率天文目标成像观测的一种新方法。
Optical sparse-aperture system can be designed to obtain high resolution in astronomical object imaging. It is a particular array synthesized by several small filled imaging systems.
机载SAR实时成像系统采用多个嵌入式信号处理器,实时接收处理雷达信号,并实时存储及形成高分辨率图像。
Aircraft SAR imaging systems are fixed on the plane, in which SAR signals can be collected, processed, stored and imaged in real-time.
本文所研究的多通道原理系统由四个大视场的边缘子成像系统和一个高分辨率的中央主成像系统组成。
Its principle system consists of four children imaging systems with large field of view and a high-resolution center major imaging system.
由于该系统具有高分辨率以及三维成像能力,因此在生物医学方面具有广泛用途。
It has been widely used in biomedical fields owing to its advantages such as high resolution and 3-D imaging.
在运动补偿系统中,天线稳定平台是保证高分辨率机载SAR能大面积连续成像的基本条件。
Therefore, an antenna stabilization platform is built for a high resolving power Airborne SAR to image continuously in wide area.
合成孔径雷达(SAR)作为主动式遥感器,是一种利用雷达本身发射的电磁波进行高分辨率成像的系统。
Synthetic Aperture Radar (SAR), as a kind of active remote sensor, is a system that can scan and image earth surface object in a high resolution using its EM wave.
针对高分辨率星载SAR成像处理流程的特点,提出一种高分辨率星载SAR并行成像处理系统方案。
In this paper, the design of a high resolution Spaceborne SAR data processing system is presented.
为了实现高分辨率成像,在保证系统实时性的同时还要保证中心频率估计的精度。
To implement imaging with high resolution, real-time and precision of Doppler centroid estimation at the same time must be ensured.
它提供了高分辨率成像用清晰的数据采集系统。
It provides high-resolution imaging us-ing the Clarity data acquisition system.
随着系统向大带宽、高分辨率、信号处理实时化的方向迈进,回波的数据率越来越高,因此对实时成像处理系统提出了更高的要求。
With the system towards the large bandwidth, high-resolution, signal processing real-time direction, SAR raw signal has a high data rate, so a higher demand is raised to real-time imaging system.
该系统采用大功率、可变发射脉宽的发送电路,高灵敏度、宽带的接收电路,能实现快速、动态、高分辨率的采集和成像。
The system uses a powerful transmitting circuit that transmits width-variable pulses, and a sensitive receiving circuit that offers quite wide frequency band.
该系统采用数据中频接收和高速数字信号处理技术来实现高分辨率、高速二维成像。
The digital IF receiving and the high-speed digital signal processing technologies are adopted to achieve the high resolution and the high-speed 2-d imaging.
该系统采用数据中频接收和高速数字信号处理技术来实现高分辨率、高速二维成像。
The digital IF receiving and the high-speed digital signal processing technologies are adopted to achieve the high resolution and the high-speed 2-d imaging.
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