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8816B_FW_New
- 此为techwell8816系列视频处理代码,处理AV,SVIDEO,YPBPR,DTV,RGB信号,读者可以通过它来学习视频处理方面的知识-This is techwell8816 series of video processing code to handle AV, SVIDEO, YPBPR, DTV, RGB signal, the reader can use it to learn the knowledge of the video processing
ESR_collector
- 融合摄像头和毫米波雷达的数据,分别显示摄像头的视频和毫米波雷达前方车辆的动态信息。并保存信息。-Integrated camera and millimeter wave radar data, were shown a video camera and millimeter wave radar front of the vehicle dynamic information. And save the information.
Screen_difference_test
- 利用摄像头视频流检查当前场景下画面变动情况。如果超过一定的阈值会自动提示。-Used streaming video camera under the screen check the current scene movements. If more than a certain threshold value will automatically be prompted.
trafficObj
- 对交通流量视频的处理,单帧灰度分析检测,开发环境matlab-Video processing on the traffic flow, single-frame gray-scale analysis and detection, the development environment matlab
Road-traffic
- 道路交通视频模拟,视频提取,目标检测与标定,图像处理-Video traffic modeling, video extraction, target detection and calibration, image processing
TMS
- 物流信息管理系统,数据库采用SQLSERVER2005,项目是旺旺老师视频跟随做的,将数据库附加进去,就可以直接运行,运行MainFrame.java类-Logistics information management systems, database using SQLSERVER2005, the project is to do Want to follow the teacher video, added into the database, you can run, run Main
SimulinkR2012b
- 简单介绍了matlab2012b中simulink的建模技巧, 是一个视频学习教程-A brief introduction matlab2012b in simulink modeling techniques, is a video tutorial to learn
Video-based-traffic-statistics
- 在整个实现过程中,背景建模是核心,采用基于高斯混合模型的背景建摸方法。-Throughout the implementation process, background modeling is the core, built on the background of GMM touch method.
test0522-1testdrawcontours
- 检测视频中车辆,标注车辆的运动轨迹,速度,加速度等信息-Detection of vehicles in the video, marking the vehicle s trajectory, speed, acceleration and other information
RotationaSize-image
- Rotation video frames
traffic
- 车辆识别,实现了在一个视频中把运动的车用绿色的框框出来。(Vehicle identification, implemented in a video to move the motor vehicle green frame.)
基于图像处理与北斗导航的目标区域定位方法研究
- 飞机上带有北斗导航或者GPS等定位装置,能够实时确定飞机的空间位置,获得其高度,经纬度等信息;飞机上载有光电吊舱,能够从高空拍摄图像或视频,并且能够通过其自带的传感器实时获得光电吊舱自身的倾斜角度、视场角度等信息;结合飞机所处的空间位置,光电吊舱的倾斜角度、视场角度以及地理信息系统就可以计算出光电吊舱所看到的区域所在的地理位置,并在地理信息系统中显示出其区域;若对图像中的某一局部区域感兴趣,需要确定其地理位置,则可通过鼠标点击这一区域,程序就能主动地计算出目标地点的地域坐标,并映射到地理信息系统