这些成像方式在多数遥感任务中得到广泛应用,但是由于数据自身的特点,在相关光学遥感信号的处理面临诸多挑战。
These imaging methods have been widely used in most remote sensing tasks, but due to the characteristics of the data, the processing of optical remote sensing signals is facing many challenges.
光学系统由于其巨大的互连和内在的并行处理能力,特别适应于超大容量数据处理和计算。
The optical system, with its massive interconnection and parallel processing capabilities, is particularly suitable for megalo-capacity data processing and computation.
整个装置由光学系统、电信号处理系统和数据自动记录系统组成。
The whole set-up consists of the optical system, the electrical signal processing system and the automatic data logging set-up.
但传统的光学水准测量也存在着劳动强度大、测量效率低下、测量数据的后续处理不方便等缺点。
There are a lot of shortcomings in traditional optical leveling survey. It includes too intensive labor, low efficiency and difficult afterward data processing.
应用CCD摄像和光学投影放大技术,配合数据采集和图像处理,对烟雾的宏观分布实施现场检测和监视。
We apply CCD image pickup, information collecting, image processing, optical projection and display to measure the distribution parameters of IR smog and laser smog.
该系统主要由半导体激光光源、准直扩束整形光学系统、主体精密机械系统、单片机控制系统和计算机实时数据处理系统等组成。
The system is composed of a semiconductor laser source, a main fine mechanic system and controller, a real-time controlling system with SCM and data processing system by PC.
将眼科光学仪器获得的图像及数据,输入并存储到计算机内进行处理。
The ophthalmology multifunction image processing system has the functions of input and storing the images and data obtained from the ophthalmic optical instruments for processing in a computer.
本文介绍一种用于皮秒和飞秒级超短脉冲和超快过程测量的微机控制光学自相关器和实验数据获取与处理系统。
This paper describes a microcomputer controlled autocorrelator and datum acquisition processing system for the measurements of picosecond and femtosecond pulses and dyna-mic processes.
首先用CCD和图像采集卡将副像偏移的光学图像转换为计算机能识别的数据模式,然后利用图像处理程序求出副像偏移的值。
Firstly, CCD and image collecting board are used to transform the optical images of the excursion of subsidiary image into the datum patterns recognizable by computers.
提出了一种新的有限元变形结果与光学元件面形畸变之间的数据处理方式,并与传统方式进行了对比。
A novel method of data processing between the finite element deformation results and the surface distortion of optical element was presented and compared with the traditional method.
合成孔径雷达光学处理器(OSARP)与普通成像系统不同,它处理合成孔径雷达(SAR),数据片。
An Optical Synthetic Aperture Radar Prccessor (OSARP) is different from the conventional imaging system. It warks after Synthetic Aperture Radar (SAR) and processes image from SAR data film.
该系统具有测量速度快、检测精度高、实时性强及数据处理自动化等特点,它是近代光学、光电技术与微机技术的有机结合。
The measuring system, possessing advantages of high precision and real time measurement, by using modern optics, opto-electronic technique and microcomputer is also described.
它利用医学影像作为原始数据,融合图像处理、计算机图形学、科学计算可视化、虚拟现实技术,模拟传统光学内窥镜的一种技术。
It simulates optics endoscopy with medical images. Virtual endoscopy incorporates Computer Graphics, image Processing, Scientific Computing Visualization, and Virtual Reality, etc.
对基于光学的气体浓度分析方法的原理、方法及数据处理进行了阐述,分析了气体浓度光学分析方法的存在问题及发展趋势。
The principle, procedure and data processing of the analysis method of gas concentration based on optics are described. The problems and development trend of this method are analyzed.
该系统具有测量速度快、检测精度高及数据处理自动化等特点。整个系统是近代光学、光电技术与微机技术的有机结合。
It possesses the advantages of high precision and high efficiency, for it is a combination of modern optics, photoelectric technique and microcomputer.
它利用医学影像作为原始数据,融合图像处理、计算机图形学、科学计算可视化、虚拟现实技术,模拟传统光学内窥镜的一种技术。
It simulates optics endoscopy by use of medical images. Virtual endoscopy incorporates the research about Computer Graphics, image Processing, Scientific Computing Visualization, Virtual Reality, etc.
该系统由光学部分,电路部分,数据采集部分及数据处理部分组成。
The system is composed by optics part, electronic part, data acquisition part and data processing part.
该系统由光学部分,电路部分,数据采集部分及数据处理部分组成。
The system is composed by optics part, electronic part, data acquisition part and data processing part.
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