随时间变化标绘数据,并使用 mencoder创建图像的动态影像,等等。 plot-latlong和GD几乎提供了无数的方法实现数据可视化。
Plot your data over time and create a movie out the images with mencoder, etc. plot-latlong and GD offer almost limitless possibilities for data visualization.
传真机先扫瞄印刷文字和图像数据,然后把这些影像转为数字码:1代表黑区,0代表白区。
Fax machines scan printed text and graphics and convert the image into a digital code: 1 for dark areas, 0 for white areas.
这些图像是GOES云朵与NASA(美国国家航空航天局)中解析度影像光谱仪(MODIS)地表背景数据相融合的合成物。
This image is a composite of clouds from GOES merged with background data of the land surface from NASA's Moderate Resolution Imaging Spectroradiometer (MODIS).
多光谱图像波段配准精度是多光谱影像数据的一项重要指标。
Band-to-band registration accuracy is an important parameter of multispectral image data.
但是高分辨率遥感影像在林业领域中的应用面临诸多问题,如数据源的价格偏高、图像阴影无法去除、树种识别困难和森林蓄积量估测精度不高等。
However, there appear many problems in its application in forestry, such as the high price of data, the irremovability of image shadow, the low accuracy of quantitative estimation, etc.
在对符合DICOM标准的医学影像文件进行处理的时候,首要的问题是怎样去读取图像文件的信息,所以了解DICOM数据格式与文件格式是极为重要的事情。
These four levels interrelate and interdepend each other. When we deal with medical image which accord with DICOM standard, primary problem is how to get the data of the image file.
实现对手骨影像静止图像和动态画面的采集,并以计算机文件及数据光盘的方式长期记录和储存。
The computer was used to realize the collection of static and dynamic hand bone images recorded and stored in files and data discs.
本文对医学影像系统的两项关键技术:数据库设计和图像压缩进行了研究。
The paper researches two pivotal techniques of the database design and the image compression of the medical image system.
随着CT、MRI、US等医学影像技术在临床中广泛应用,产生了大量医学图像数据。
With the extensive application of medical imaging technology such as CT, MRI and US, a large number of medical image data have been obtained.
影像更是地理信息科学中最重要的数据源,图像信息处理成为遥感应用中的一个重要环节。
Images are also the most important data source in Geographic Information Science and image processing is a very crucial step in remote sensing application.
这里所示的图像数据集取样于同一同一观察层面的影像,以保证ADC的SPECT和MR影像可以直接比较。
The image datasets shown here are sampled along the same plane of view, to permit the direct comparison of SPECT and MR images in ADC.
遥感影像特征分析是影像融合和解译的基础,而对遥感数据源各个波段进行定量分析是图像融合的前提。
Statistical characteristic analysis of remote sensing image is fundamental to image fusion and interpretation, and the quantitative analysis of each band is the premise of image fusion.
论文进行了无线内窥镜的影像工作站的图像预处理、图像浏览、图像捕捉与保存、数据库的建立等工作。
The paper completes the work such as image preprocessing, image browsing, image acquisition and conservation, database of the wireless-endoscope image-work-station etc.
利用数据可实现流动成像分析,生成声音活动的图像,并将其展示在能够显示井下流径的2d影像中。
Flow mapping analysis can also be done with the data to create a map of the acoustic activity and present it in a 2d image that will show the flow path in the well.
该系统采用先进的计算机网络技术,能将不同医学影像设备产生的图像采集后送往系统的图像数据中心(网络服务器),实现医学图像的数字化存贮和管理。
Advanced computer network technology is used in the system, which can sample images produced by different medical imaging equipments and then deliver them into the network server of system.
然后,利用图像化的地层、重力、化探、线环构造和遥感影像数据进行RGB合成,通过HIS变换进行多源地学数据融合。
These image data and remote sensing image can be integrated in RGB form and then be transformed into HIS to merge the geological data.
最后通过利用ERSSAR数据和TM影像进行融合分析,证明该方法在遥感图像自动分类中有很好的应用前景。
At the end, it is demonstrated that evidential reasoning has extensive applications in the classification of remote sensing images through the fusion analysis of ERS SAR and TM image.
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.
方法:采用CT图像分析仪测算法,对中国男性样本(18 ~23岁)进行体态参数测定、全身ct横断层扫描、影像分析、数据测算并进行逐步回归,筛选、确定重要变量。
Methods: By using the CT-DIP method, Chinese young male living subjects (18-23 years) were studied for determination of the posture parameters, the scanning, image analysis and calculation.
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.
工作系统将如下:在内存中的电话簿储存影像,而嵌入式设备摄像头拍摄并确认用户手势,然后再比较他们与图像在数据库中。
Work system will be as follows: in memory of the phone directory stored images, and embedded device camera shoots and recognizes gestures user, and then compare them with images in the database.
工作系统将如下:在内存中的电话簿储存影像,而嵌入式设备摄像头拍摄并确认用户手势,然后再比较他们与图像在数据库中。
Work system will be as follows: in memory of the phone directory stored images, and embedded device camera shoots and recognizes gestures user, and then compare them with images in the database.
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