沿边缘的色度插值会产生明显的光晕伪像。
The chroma interpolation along edges produces noticeable haloing artifacts.
但应注意伪像与产品自身缺陷的区别,以避免产生误检。
However, it should be noticed that the artifact differs from the product defect, to protect from error detection.
“运动伪像”的测量成为评估LCD运动图像质量的关键。
The measurement of "motion Artifact" has become the key to evaluate motion picture quality of LCD.
研究一种有别于软件校正模型的更为简单实用的射束硬化伪像校正方法。
This paper introduces a simple and practical method to correct the beam hardening artifacts, which is different from the method of software correction model.
通过对运动伪像影响因子的分析,提出了一些有利于改善显示质量的技术。
Some technologies which can improve the quality of displays have been proposed by analysing those factors.
在伪像消除方面,主要介绍了散斑和混响伪像的消除方法,讨论了各种方法的优缺点。
Suppression methods for speckle and reverberation are introduced and their advantages and drawbacks are also discussed.
受扫描系统精度的限制,这一要求难以得到充分的满足,从而引起重构图像出现重影伪像。
This requirement is hardly satisfied in full under the accuracy restriction of the scanning system. Consequently a kind of artifact called double shadow exhibits itself in reconstruction images.
在分析了内窥镜超声图像中伪像成因的基础上,运用数字图像处理的方法消除了图像中的伪像。
Analyzing the cause of the artifact in the ultrasound endoscopes image, the paper presents a digital image process method to remove the artifact.
该方法对X射线进行一定程度的预硬化,通过实验获得预硬化材料种类及射束硬化伪像的校正规律。
The method made the X-ray beam harden at first, and then the kinds of prehardening materials and correction rule of beam hardening artifacts were obtained through experiment.
因此更好的了解运动伪像,更完善的构建一个运动伪像的评估系统将是一个十分重要并且又极具现实意义的研究工作。
Therefore, it will be very important and practically significant to have a better understanding of motion artifacts and to build an assessment system of motion artifacts.
然而,HIFU治疗系统超声成像中产生的雾状伪像,掩盖了人体组织的真实成像,影响了系统对病灶的定位和治疗。
However, a real image of tissue components is always covered by fog artifacts resulting from the ultrasonic imaging in HIFU therapeutic system.
高强度聚焦超声治疗系统超声成像中产生的雾状伪像,掩盖了人体组织的真实成像,影响了HIFU治疗的安全性和有效性。
The real image of tissue component is covered by fog artifact which results from ultrasonic imaging in HIFU therapeutic system.
图像源设计完成的对于LCD响应曲线测试图像和“运动伪像”感视觉知图像的产生,为评估LCD“运动伪像”提供了基础。
The image source has been designed to generate images for LCD transition curves measuring and perception study, as a basic platform for evaluating "Motion artifact".
文章讨论了各种超声图像伪像形成的原因,并在此基础上从声波的传播角度,对超声伪像给出了新的认识,提出了一些控制方法。
The article puts great emphasis on the reasons of ultrasound image artifacts, discusses the image artifacts caused by complicated interface and presents a new view on ultrasound image artifacts.
对于逆合成孔径雷达(ISAR)而言,多径效应会在ISAR的二维目标重建像上引入两个伪像,这将会影响雷达的目标识别与分类。
For inverse synthetic aperture radar (ISAR), the multipath effects introduce two artifacts in its reconstructed images, which greatly hinders radar target recognition and classification.
所述比较数据是从所述第一版本的编码后视频和所述至少一个第二版本的编码后视频生成的视频伪像列表、视频文件尺寸、编码参数和元数据中的至少一个。
The comparison data is at least one of a listing of video artifacts, a video file size, encoding parameters and metadata generated from the first and the at least one second version of encoded video.
像这样的伪时间和旅行每天都在发生并被我们人类的探测工具(仅举几个例子,如哈勃空间望远镜、设置在夏威夷的一部庞大的凯克望远镜和钱德拉X射线观测卫星)拍摄下来。
Pseudo-time travel like this happens every day, with pictures taken by the Hubble Space Telescope, the mammoth Keck telescopes in Hawaii and the Chandra X-ray Observatory satellite to name just a few.
但Python Python是一种很值得展示的工具,因为它读起来像流线型的伪代码,并且广泛可用。
Python is a good vehicle for exposition, though, because it reads like streamlined pseudo code, and is widely available.
基于MATLAB7.0编程对图像进行分析,计算伪影的面积占原像面积的比重。
The images were analyzed based on MATLAB7.0 programming to calculate the area proportion of the artifacts.
显示BFI的血流量与二维像空间流和血流成像分辨率和无彩色血流成像伪影与B。
Display blood flow with 2d-like spatial resolution and no color-flow-imaging artifacts with B-Flow and blood flow imaging (BFI).
显示BFI的血流量与二维像空间流和血流成像分辨率和无彩色血流成像伪影与B。
Display blood flow with 2d-like spatial resolution and no color-flow-imaging artifacts with B-Flow and blood flow imaging (BFI).
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