DSC's data flow starts from the image sensor and stops at the image data storage.
数码相机的数据流向从图像传感器开始,止于图像数据的存储和传输。
Aiming at this problem, this paper puts forward a feature-based medical image data storage model.
为此,提出一种基于特征的医学图像存储模型。
In the aspect of image data storage, existing methods and standards of the image compression was analyzed, then a solution for gray image storage base on JPEG2000 was proposed.
在图像数据的存储方面,分析了现有图像压缩方法和标准,提出了通过JPEG2000图像压缩标准对疵病检测系统产生的灰度图像进行压缩存储的方案。
The image contains all of the data stored in the ephemeral storage.
该映像包含临时性存储中保存的所有数据。
A paper folder can also be used to storage data, therefore the folder image can be used as a metaphor to facilitate the undertanding of the hard drive use.
现实生活中的文件夹同样可以用来存储数据资料,所以我们使用了一个形象的“ICON”来代表这原本并不好解释的事物。
When you are setting up a virtualized desktop infrastructure, it is important to design an associated network storage solution for image storage, user data, and backup.
在设置虚拟桌面基础结构时,一定要为映像、用户数据和备份设计相关联的网络存储解决方案。
It's a tough practical issue how to storage, manage and even to retrieval and to display the mass image data.
如何存储、管理海量图像数据,尤其是快速检索、快速显示海量图像数据,已成为实际应用中迫切需要解决的问题。
In fact, in order to realize image data real-time collecting and rapid storage, uniting PCI bus and SCSI bus which make system hold high speed data throughput provides sufficiency observation data.
在实际的工作中,把PC I局部总线和SCSI系统总线结合起来,使整个系统拥有高速的数据吞吐量,以期实现图象数据的实时采集和快速存储,为实时处理和事后分析工作提供充分的观测数据。
However, as the increasing of the image data, it is a question to storage and transmit the data.
然而,大量图像的使用,也产生了数据的存储与传输的压力问题。
The system combines various technologies including multimedia, media storage, data organization, data model and image retrieval technology.
该系统综合运用了多媒体、媒体存储、数据组织和表示方法、图像检索技术等。
The method of sparsely row-indexed storage has been used to compress large volumes of image data, on the base of integer wavelet transform constructed by lift scheme.
基于提升方法构造的整数小波变换,采用行索引稀疏存储方案,可以对海量影像数据进行高保真的压缩。
The compression technology of hyperspectral image is a key problem to be solved in the storage and transportation of remote sensing data.
高光谱图像压缩技术是遥感数据存储和传输中的一个迫切需要解决的问题。
Image compression techniques are very important for the storage and transmission of the huge data in the modern image processing.
压缩编码技术对图像处理中大量数据的存储和传输至关重要。
As the key technique of modern communication, media storage, data publish and multimedia computer, image compression is one of the most active areas in information processing.
作为现代通信、介质存储、数据发行、多媒体计算机等技术的关键环节,图像压缩编码始终是信息处理技术研究中最为活跃的领域之一。
The key to develop the meteorological information management system involving image data is the acquirement, storage and display of the meteorological PCX diagram format file.
研制含图像资料的气象信息管理系统技术关键是解决气象PCX图像格式文件的获取、保存及显示等问题。
The digital image has huge data information, so the algorithm which has high compression ratio and high fidelity rate is urgently needed, taking account of storage cost and communication.
由于数字图像具有数据量大的特点,出于对图像存储成本和图像通信的考虑,良好的图像压缩技术要能够实现高压缩率和高保真率。
The local wavefront slope is extracted at real time with a real time image processor, thus the requirements for real time data storage can be reduced and a long lasting measuring time can be realized.
采用实时图象处理器,实时提取局部波前倾斜,从而减少实时数据存储的要求,实现长时间持续测量。
This system mostly realizes four functions: the inspecting temperature based on image, the storage on real time of dynamic data-base, creating parameter's graph and controlling the quantity of coal.
本系统主要实现四个功能:图像温度检测功能、动态数据库实时存储功能、参数曲线图生成功能和喷煤量的实时控制功能。
System hardware platform is divided into five parts, respectively is video acquisition, data storage, image processing, the results indicate, and power management.
系统的硬件平台分为五个部分,分别是视频采集、数据存储、图像处理、结果显示和电源管理。
The present application relates to a image processing device, document data transmission method, program, and storage medium.
本申请涉及图像处理设备及其文档数据传输方法、程序和存储介质。
The storage medium includes: image data; and meta information.
存储介质包括:图像数据和元信息。
Aiming at the problems of real-time data acquisition and storage in the image transmission and processing field, a system based on high-effective chips of DSP is proposed.
针对图像传输及处理领域中的数据实时采集与保存问题,基于高效DSP芯片的图像处理系统应运而生。
Now, many image collector transfer inamge data to a computer through the computer interface, accomplish their work with the help of high computing speed and large storage capacity of the computer.
目前的图像采集设备大都要通过计算机接口将图像数据传输到计算机中,借助计算机的高运算速度和大存储容量完成图像采集工作。
On the foundation of analysis of characteristic on medical image data source, the process of image conversion and storage is given.
在分析医学图像数据源的特点基础上,给出图像转换和存储的过程。
So image compression coding of the original image is the most reasonable method that solves large amount of image data with limited storage capacity and transmission bandwidth contradictions.
因此将原始图像进行图像压缩编码是解决图像数据量大与有限存储容量和传输带宽矛盾的最合理方法。
The image data occupies vast part of band resource in the storage and transmission process, therefore, image compression technology becomes more important than before.
图像数据在存储及传输过程中占用了大量带宽资源,因此图像压缩技术就显得尤为重要了。
Its default hard-disk drive offers 500 gigabytes of storage to hold a month's data without compromising image quality.
系统默认硬盘驱动器能提供500千兆字节的存储空间,这足够保存一个月的数据并且不降低图像质量。
Therefore the research focusing on image catalog data expressing mode, data storage and organization and retrieval algorithm based on catalog data has great theoretical and practical significance.
因此,对影像编目数据的表达方式、存储组织以及基于编目数据的遥感影像检索算法的研究具有十分重要的理论和实际意义。
Therefore the research focusing on image catalog data expressing mode, data storage and organization and retrieval algorithm based on catalog data has great theoretical and practical significance.
因此,对影像编目数据的表达方式、存储组织以及基于编目数据的遥感影像检索算法的研究具有十分重要的理论和实际意义。
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