针对滚动轴承故障诊断中普遍存在的小样本学习问题，采用支持向量机实现轴承故障的模式识别。为了解决时域统计参数对于轴承故障的多分类效果较差的问题，引入小波包分解（Wavelet packet decomposition，WPD）技术，提取振动信号各频带的能量系数构造特征向量，并采用Fisher比率法对特征向量进行优化选取；然后利用支持向量机（support vector machine，SVM）进行故障模式识别，并与小波包分解及时域统计参数的分类效果进行对比分析。结果表明：支持向量机是实现轴承故障模式识别的一

自己写的，有运行截图

CNN_with_CAES_and_DQN 卷积神经网络的组合，其中卷积自动编码器（堆叠式）与深度 Q 网络相结合。 C++代码基于tiny_cnn

Dependency Opencv Keras(theano-backend " tf data order") Numpy

基于tensorflow1.8实现的线性支撑向量机，测试用例是自带的iris数据集

smo 的java代码

这里面包含整个基于神经网络深度学习 ，实现人脸识别项目，包括原始数据 ，训练数据 训练模型 测试数据等，包含演示同步ppt文件， 使用的开发工具是pycharm，基于python3实现，该案例可做为本科毕设的入门参考，ppt内容包含整个讲解过程，从人脸识别到cnn，卷积，从欧式距离到人脸表情变化的计算详情 以及整个卷积的介绍，可以做为入门以及会议上介绍使用的文档。 参考文件 基于CNN卷积神经网络实现人脸识别-人脸表情识别-同步ppt介绍及基于python3实现识别源代码。

The Support Vector Machine is a powerful new learning algorithm for solving a variety of learning and function estimation problems, such as pattern recognition, regression estimation, and operator inversion. The impetus for this collection was a workshop on Support Vector Machines held at the 1997 NIPS conference. The contributors, both university researchers and engineers developing applications for the corporate world, form a Who's Who of this exciting new area. Contributors: Peter Bartlett, Kristin P. Bennett, Christopher J. C. Burges, Nello Cristianini, Alex Gammerman, Federico Girosi, Simon Haykin, Thorsten Joachims, Linda Kaufman, Jens Kohlmorgen, Ulrich Kreßel, Davide Mattera, Klaus-Robert Müller, Manfred Opper, Edgar E. Osuna, John C. Platt, Gunnar Rätsch, Bernhard Schölkopf, John Shawe-Taylor, Alexander J. Smola, Mark O. Stitson, Vladimir Vapnik, Volodya Vovk, Grace Wahba, Chris Watkins, Jason Weston, Robert C. Williamson.

The Support Vector Machine is a powerful new learning algorithm for solving a variety of learning and function estimation problems, such as pattern recognition, regression estimation, and operator inversion. The impetus for this collection was a workshop on Support Vector Machines held at the 1997 NIPS conference. The contributors, both university researchers and engineers developing applications for the corporate world, form a Who's Who of this exciting new area. Contributors: Peter Bartlett, Kristin P. Bennett, Christopher J. C. Burges, Nello Cristianini, Alex Gammerman, Federico Girosi, Simon Haykin, Thorsten Joachims, Linda Kaufman, Jens Kohlmorgen, Ulrich Kreßel, Davide Mattera, Klaus-Robert Müller, Manfred Opper, Edgar E. Osuna, John C. Platt, Gunnar Rätsch, Bernhard Schölkopf, John Shawe-Taylor, Alexander J. Smola, Mark O. Stitson, Vladimir Vapnik, Volodya Vovk, Grace Wahba, Chris Watkins, Jason Weston, Robert C. Williamson.

The Support Vector Machine is a powerful new learning algorithm for solving a variety of learning and function estimation problems, such as pattern recognition, regression estimation, and operator inversion. The impetus for this collection was a workshop on Support Vector Machines held at the 1997 NIPS conference. The contributors, both university researchers and engineers developing applications for the corporate world, form a Who's Who of this exciting new area. Contributors: Peter Bartlett, Kristin P. Bennett, Christopher J. C. Burges, Nello Cristianini, Alex Gammerman, Federico Girosi, Simon Haykin, Thorsten Joachims, Linda Kaufman, Jens Kohlmorgen, Ulrich Kreßel, Davide Mattera, Klaus-Robert Müller, Manfred Opper, Edgar E. Osuna, John C. Platt, Gunnar Rätsch, Bernhard Schölkopf, John Shawe-Taylor, Alexander J. Smola, Mark O. Stitson, Vladimir Vapnik, Volodya Vovk, Grace Wahba, Chris Watkins, Jason Weston, Robert C. Williamson.