The monocular USES image intensification for target identification and IR for target detection.
这种单目镜通过图像增强技术进行目标识别,通过红外技术进行目标探测。
Moving point targets detection in image sequences always be the emphasis and difficulty in the field of targets detection and identification.
图像序列中运动点目标的检测一直是目标检测与识别领域中的重点和难点。
Shadow detection in high spatial resolution remote sense image is very critical for target identification and information recovering.
高空间分辨率遥感影像中的阴影检测对于影像的目标识别和信息恢复十分关键。
Infrared image edge detection is the key step of infrared image object identification and fault diagnosis.
红外图像的边缘检测是红外图像目标识别以及进一步红外故障诊断的关键环节。
Detection, identification, and selection of moving target through image sequence are very important to Air Traffic Control System and Air Defense System.
利用图象序列来检测、识别和选择运动飞机目标,对于诸如航空管制和防空系统有着十分重要的意义。
Image segmentation is an important step in target detection and identification is the basic work of many advanced image processing technology.
图像分割是目标检测和识别的重要步骤,是许多高级图像处理技术的基础。
The paper analyses a variety of image processing technique and identification method, then raises a specific scheme for the detection of the glass defection detection system.
论文通过分析了以上各种图像处理和识别方法,提出了玻璃缺陷检测的具体方案。
We design a suit of fabric defects automatic detection equipments, including image signal's collection and analysis and processing, defects automatic detection and identification, and automatic alarm.
在这些核心检测算法的基础上,设计了一整套的织物疵点自动检测系统设备构成,包括图像信号的采集、分析、处理,疵点自动检测识别以及自动报警等部件。
Identification algorithm mix difference image method and 4-connected boundary tracking method, besides, we improved the difference image method and built a new moving detection model finally.
识别算法采用差影法与4邻域连通区域标记相结合,并对差影法进行改进,建立起一个新型的运动检测模型。
Multisensor image fusion could improve system performances such as detection, tracking, and identification greatly.
多传感器图像融合技术可以有效地提高系统的检测、跟踪和识别性能。
Image processing is widely used in medical images, remote sensing images, fingerprint identification, face detection, geological exploration and other fields.
图像处理广泛应用在医学图像、遥感云图、指纹识别、人脸检测、地质勘探等领域。
The principle of using GPR in the quality detection of the railroad retaining wall and image identification principle are introduced.
本论文提出使用地震波速法和地质雷达法检测路基挡土墙的强度和几何尺寸 ,是一种快速、简便、无损、有效的检测方法。
The principle of using GPR in the quality detection of the railroad retaining wall and image identification principle are introduced.
本论文提出使用地震波速法和地质雷达法检测路基挡土墙的强度和几何尺寸 ,是一种快速、简便、无损、有效的检测方法。
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