搜索资源列表
-
0下载:
这是一个基于opencv的计算光流的程序,采用的是Lucas-Kanade算法,This is a calculation based on optical flow opencv procedures, using the Lucas-Kanade algorithm
-
-
0下载:
Calculate & Draw optical flow vectors using Opencv (Pyr LK method)
-
-
0下载:
基于c++和opencv的CLG光流算法源代码-Based on c++ and opencv optical flow algorithm for the CLG source code
-
-
0下载:
implementation using optical flow method. opencv
-
-
0下载:
Opencv: Optical flow calculation using Block Matching method
-
-
0下载:
C++编程,可以从一段视屏中建立光流。需要安装OPENCV 附属library。然后安装到任何C++编译器下,即可使用-OpenCV optical flow source code,Create optical flow from video. Need to install openCVlibary into any C++ compiler.
-
-
0下载:
C++编程,可以从一段视屏中建立光流。lucaskanade计算光流方法,需要安装OPENCV 附属library。然后安装到任何C++编译器下,即可使用-OpenCV optical flow source code,Create optical flow from video. Need to install openCVlibary into any C++ compiler.
-
-
0下载:
这个程序应用于机器人视觉系统。可以即时从两个摄像头同时读取摄像。程序包括视屏抓取,光流计算以及计算结果检验。计算结果通过串口直接发送到控制计算机。-This program is dedicated to capture real time optical flow from two cameras with
intersect angle 180 or 120 degree. It includes Optical flow capturing, calculation
-
-
0下载:
optical flow 视频跟踪程序 基于opencv-OpticalFlow video tracing based on opencv
-
-
0下载:
OpenCv 光流法车辆检测-OpenCv vehicle detection optical flow method
-
-
0下载:
利用OpenCV计算光流的程序,根据视频,计算并跟踪运动目标-Optical flow is calculated using OpenCV procedure, the video, calculate and track moving targets
-
-
0下载:
opencv光流代码,基于vs2010平台,C语言编程,程序小实例-opencv optical flow example
-
-
0下载:
OpenCV运动目标跟踪光流法工程,调试通过-OpenCV moving target tracking optical flow method works, debugging through
-
-
0下载:
visualc++和opencv实现。点跟踪。改进的Lucas-Kanade光流算法,检测视频运动目标。鼠标点击目标点,视频跟踪。-Point tracking. Improved Lucas-Kanade optical flow algorithm, video motion detection target. Click on the target point, video tracking.
-
-
0下载:
Estimate optical flow using Lucas-Kanade method is write by c++ use OpenCV
-
-
0下载:
本文使用opencv介绍了光场的应用,大家可以看看,顺便-optical flow
-
-
0下载:
利用基于ros的opencv中光流法进行动态跟踪(Dynamic tracking using optical flow method in opencv based on ROS)
-
-
1下载:
利用opencv3实现光流法追踪运动目标(Tracking motion targets by optical flow method)
-