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introduction(includePCA-aam)
- introduction on pca,pca is an important method to search&recongnize human face.
sklm-AAM
- 唇形跟踪,对象为唇部。 matlab仿真成功后需用VC实现并设计界面-Lip tracking, object for lip
123456789AAM
- AAM算法是人像识别领域的一个很重要的算法,它是ASM算法的一个扩展-AAM algorithm is a very important algorithm in face recognition fields.It is a extended version of ASM algorithm.
icaam
- AAM fitting algorithm
vosm-0.3.2
- ASM,AAM实现算法 ASM AAM实现算法ASM AAM实现算法-ASM, AAM algorithm ASM AAM algorithm ASM AAM algorithm
tzimiro_ICCV2013_code
- 用AAM算法进行人脸特征点的标定,即对人脸的眼睛,眉毛,嘴巴,鼻子及脸的轮廓进行标记,此代码标记了68个特征点-For face feature point calibration with AAM algorithm, namely the human face of the eyes, eyebrows, mouth, nose and face contour mark, this code marking the 68 feature points
22faf
- AAM人脸定位算法.主要基于一个人脸的标定.其中开发环境为C++.非常好用.-AAM face location algorithm is based on a human face calibration which development environment for C++. Very easy to use.
Edit68CMU_pack_AAM
- 基于 AAM 的人脸特征定位方法在建立人脸模型过程中,不但考虑 局部特征信息,而且综合考虑到全局形状和纹理信息,通过对人脸形状特征和纹 理特征进行统计分析,建立人脸混合模型,即为最终对应的 AAM 模型。-AAM facial features localization method based on face model in establishing the process, not only consider local feature information, and consi
face-master
- AAM Feature Extraction, Age Estimation, Face Aging
12_-Fallahi-AAM-R358-SF-012211
- The cement industry is one of the most important and profitable industries in Iran and great content of financial resources are investing in this sector yearly. In this paper a GMDH-type neural network and genetic algorithm is developed for stock
Chapter7_HeadPoseEstimation
- 该工程是深入理解Opencv这本书的第七章基于AAM和POSIT三维头部姿态估计的源码。-The project is in-depth understanding of Opencv This chapter of the book is based on AAM and POSIT three-dimensional head attitude estimation source.
V538jh
- 用于matlab人脸识别的matlab程序,用了AAM,PCB等算法-a program for face recognised,AAM,PCB was used
DrawContourGui
- 人脸识别的AAM(主动外观模型)中的DrawContourGui代码(DrawContourGui in active appearence model)
代码转换实验
- 1.编写并调试程序,将内存中BCD码转换为二进制码,在DEBUG中查看。 2、BCD码转换为二进制码 在各种智能仪器和信息处理中,人们总习惯于十进制数来表示信息。但绝大多数计算机没有十进制运算指令(仅有十进制调整指令)。这是因为实现十进制算术运算的硬件电路要比采用二进制算术运算的硬件电路复杂得多。例如,当两个整数进行算术运算时,对一个N进制的数需记住N(N+1)/2个“积”与“和”。当N=10时,需记住55个“积”与“和”;而当N=2时,只需记住3个。从占用存储空间来看,采用二进制数比采用