搜索资源列表
2011-ieee-sensors
- 心肌运动分析和Tei指数计算 Myocardial Motion Analysis for Determination of Tei-Index of Human Heart-Myocardial Motion Analysis for Determination of Tei-Index of Human Heart
Tracking
- VC6.0与opencv1.0环境下人脸角点检测与运动跟踪-Human Face with opencv1.0 environment VC6.0 corner detection and motion tracking
LCDKEY-V2.1
- 12864 1602双屏显示,多级菜单,用于运动控制系统的人机界面-128,641,602 dual display, multi-level menus, motion control systems for human-machine interface
run_and_kick
- 使用大型运动捕捉系统进行运动捕捉获取的数据,为bvh格式,制作人体动画可以使用。-Large-scale motion capture system using motion capture data obtained for the bvh format, making human animation can be used.
headCountCode
- 采用了Harrtraining和离子滤波算法实现了拥挤人群人头计数,非常有用。VC++和Opencv开发,采用Oepncv中的Harrtraining训练一个分类器即可运行-Human detection and tracking in high density crowds is an unsolved problem. Standard preprocessing techniques such as background modeling fail when most of the
Multiple-Pedestrian-Tracking-using-Colour-and-Mot
- This paper presents a method that combines colour and motion information to track pedestrians in video sequences captured by a fixed camera. Pedestrians are firstly detected using the human detector proposed by Dalal and Triggs which involves com
Laban-Movement-Analysis-used-in-HMI
- 人机交互中的动作分析及贝叶斯算法的实现。英文文档。-Human-computer interaction in motion analysis and Bayesian algorithm. English documentation.
walker
- 人生路模拟人体结构 实现性别辨别,研究肌肉 速度 肩宽 对速度的影响-matlab WALKER Human gait. This model, developed by Nikolaus Troje, is a five-term Fourier series with vector-valued coefficients that are the principal components for data obtained in motion capture exp
Design-Implementation
- Design, Implementation, and Experimental Results of a Quaternion-Based Kalman Filter for Human Body Motion Tracking
CODE_MOTION
- this code motion and very good communciation code human detection and object detection
walker
- WALKER Human gait. This model, developed by Nikolaus Troje, is a five-term Fourier series with vector-valued coefficients that are the principal components for data obtained in motion capture experiments involving subjects wearing reflect
walker
- 模拟人的步行,是一个很好的模拟程序- WALKER Human gait. This model, developed by Nikolaus Troje, is a five-term Fourier series with vector-valued coefficients that are the principal components for data obtained in motion capture experiments involving sub
b
- 本论文是关于视频运动人体目标跟踪方法与性能评估-This paper is on the human target of video motion tracking method and performance assessment
Httrackeru
- 人体识别跟踪程序,可自动计算识别人体,,并根据运动趋势跟踪,重点设别头部和面部 -Human identification and tracking program can automatically calculate the recognition body, and tracking based on motion trend, focusing on device head and facial
Hrentigenzongu
- 人体跟踪源代码,有运动检测和跟踪结果。其中运动检测中有背景减减法,二值化,性态滤波,纵向投影,横向投影,除去影子,新纵投影 -The human tracking source code, motion detection and tracking results. Wherein the motion detection with background subtraction reduction, binarization, the sexual state filter, longitu
Effectual-Method-for-Crowd-Counting
- 对固定镜头下视频序列中运动人体的检测和跟踪方法进行研究,利用灰度图像差分双向投影信息检测人体目标,提出一种基于统 计运动区域几何特征固定比例的分割算法,使用最近邻匹配方法对人体进行跟踪。-Video sequences in the detection and tracking of the movement of the human body to study under the fixed lens, bi-directional projector information using
Skeleton-Animation
- 一个基于OpenGL的在VC++6.0环境下开发的人物骨骼运动控制,可以控制人物的手脚的旋转,移动等各种运动,能很好的实现人机交互,具有参考价值。-Skeletal motion control, an OpenGL-based character development in VC++6.0 environment can control the character' s hands and feet, rotate, move, and other sports, can be a g
HumanPMotion_FK
- 一个基于OpenGL的人体关节正向运动仿真源代码,有一定的参考价值。-An OpenGL-based human joint the forward motion simulation source code, there is a certain reference value.
Design-and-Real-ization
- 在优化粒子滤波跟踪框架下, 设计并实现了一个结合多种图像特征、在多摄像机环境下跟踪人体运动的三 维人体运动跟踪系统1 通过定义三维人体模型、摄像机模型以及观测似然模型, 得到跟踪所需目标函数, 并使用优化 粒子滤波算法进行求解1 实验结果表明, 该系统能够对人体运动进行准确的跟踪和三维重建, 可应用于体育运动分 析和动画制作等领域1-A v ideo-based 3D human body motion t racking system is developed under the
fangxiang
- 能够采集动作,系统会根据人体的动作方向做出判断,从而识别物体的于东方向!-Able to capture the action, the system will make a judgment according to the direction of motion of the human body, in order to identify the object in the East to!