实例介绍
【实例简介】MATLAB与机器学习实例源代码完整版,一键运行,快速入门
文件清单
└── 使用opencv和python进行智能图像处理源代码
├── environment.yml
├── LICENSE
├── notebooks
│ ├── 00.00-Preface.ipynb
│ ├── 00.01-Foreword-by-Ariel-Rokem.ipynb
│ ├── 01.00-A-Taste-of-Machine-Learning.ipynb
│ ├── 02.00-Working-with-Data-in-OpenCV.ipynb
│ ├── 02.01-Dealing-with-Data-Using-Python-NumPy.ipynb
│ ├── 02.02-Loading-External-Datasets-in-Python.ipynb
│ ├── 02.03-Visualizing-Data-Using-Matplotlib.ipynb
│ ├── 02.04-Visualizing-Data-from-an-External-Dataset.ipynb
│ ├── 02.05-Dealing-with-Data-Using-the-OpenCV-TrainData-Container-in-C .ipynb
│ ├── 03.00-First-Steps-in-Supervised-Learning.ipynb
│ ├── 03.01-Measuring-Model-Performance-with-Scoring-Functions.ipynb
│ ├── 03.02-Understanding-the-k-NN-Algorithm.ipynb
│ ├── 03.03-Using-Regression-Models-to-Predict-Continuous-Outcomes.ipynb
│ ├── 03.04-Applying-Lasso-and-Ridge-Regression.ipynb
│ ├── 03.05-Classifying-Iris-Species-Using-Logistic-Regression.ipynb
│ ├── 04.00-Representing-Data-and-Engineering-Features.ipynb
│ ├── 04.01-Preprocessing-Data.ipynb
│ ├── 04.02-Reducing-the-Dimensionality-of-the-Data.ipynb
│ ├── 04.03-Representing-Categorical-Variables.ipynb
│ ├── 04.04-Represening-Text-Features.ipynb
│ ├── 04.05-Representing-Images.ipynb
│ ├── 05.00-Using-Decision-Trees-to-Make-a-Medical-Diagnosis.ipynb
│ ├── 05.01-Building-Our-First-Decision-Tree.ipynb
│ ├── 05.02-Using-Decision-Trees-to-Diagnose-Breast-Cancer.ipynb
│ ├── 05.03-Using-Decision-Trees-for-Regression.ipynb
│ ├── 06.00-Detecting-Pedestrians-with-Support-Vector-Machines.ipynb
│ ├── 06.01-Implementing-Your-First-Support-Vector-Machine.ipynb
│ ├── 06.02-Detecting-Pedestrians-in-the-Wild.ipynb
│ ├── 06.03-Additional-SVM-Exercises.ipynb
│ ├── 07.00-Implementing-a-Spam-Filter-with-Bayesian-Learning.ipynb
│ ├── 07.01-Implementing-Our-First-Bayesian-Classifier.ipynb
│ ├── 07.02-Classifying-Emails-Using-Naive-Bayes.ipynb
│ ├── 08.00-Discovering-Hidden-Structures-with-Unsupervised-Learning.ipynb
│ ├── 08.01-Understanding-k-Means-Clustering.ipynb
│ ├── 08.02-Compressing-Color-Images-Using-k-Means.ipynb
│ ├── 08.03-Classifying-Handwritten-Digits-Using-k-Means.ipynb
│ ├── 08.04-Implementing-Agglomerative-Hierarchical-Clustering.ipynb
│ ├── 09.00-Using-Deep-Learning-to-Classify-Handwritten-Digits.ipynb
│ ├── 09.01-Understanding-perceptrons.ipynb
│ ├── 09.02-Implementing-a-Multi-Layer-Perceptron-in-OpenCV.ipynb
│ ├── 09.03-Getting-Acquainted-with-Deep-Learning.ipynb
│ ├── 09.04-Training-an-MLP-in-OpenCV-to-Classify-Handwritten-Digits.ipynb
│ ├── 09.05-Training-a-Deep-Neural-Net-to-Classify-Handwritten-Digits-Using-Keras.ipynb
│ ├── 10.00-Combining-Different-Algorithms-Into-an-Ensemble.ipynb
│ ├── 10.01-Understanding-Ensemble-Methods.ipynb
│ ├── 10.02-Combining-Decision-Trees-Into-a-Random-Forest.ipynb
│ ├── 10.03-Using-Random-Forests-for-Face-Recognition.ipynb
│ ├── 10.04-Implementing-AdaBoost.ipynb
│ ├── 10.05-Combining-Different-Models-Into-a-Voting-Classifier.ipynb
│ ├── 11.00-Selecting-the-Right-Model-with-Hyper-Parameter-Tuning.ipynb
│ ├── 11.01-Evaluating-a-Model.ipynb
│ ├── 11.02-Understanding-Cross-Validation-Bootstrapping-and-McNemar's-Test.ipynb
│ ├── 11.03-Tuning-Hyperparameters-with-Grid-Search.ipynb
│ ├── 11.04-Chaining-Algorithms-Together-to-Form-a-Pipeline.ipynb
│ ├── 12.00-Wrapping-Up.ipynb
│ ├── data
│ │ ├── chapter6
│ │ │ ├── pedestrians128x64.tar.gz
│ │ │ ├── pedestrians_neg.tar.gz
│ │ │ └── pedestrian_test.jpg
│ │ ├── chapter7
│ │ │ ├── beck-s.tar.gz
│ │ │ ├── BG.tar.gz
│ │ │ ├── farmer-d.tar.gz
│ │ │ ├── GP.tar.gz
│ │ │ ├── kaminski-v.tar.gz
│ │ │ ├── kitchen-l.tar.gz
│ │ │ ├── lokay-m.tar.gz
│ │ │ ├── SH.tar.gz
│ │ │ └── williams-w3.tar.gz
│ │ ├── cover.jpg
│ │ ├── haarcascade_frontalface_default.xml
│ │ └── lena.jpg
│ └── figures
│ ├── 02.03-sine.png
│ ├── 02.04-digit0.png
│ └── 02.04-digits0-9.png
├── README.md
├── requirements.txt
└── tools
├── add_book_info.py
├── add_navigation.py
├── fix_kernelspec.py
├── generate_contents.py
└── README.md
7 directories, 82 files
【实例截图】
文件清单
└── 使用opencv和python进行智能图像处理源代码
├── environment.yml
├── LICENSE
├── notebooks
│ ├── 00.00-Preface.ipynb
│ ├── 00.01-Foreword-by-Ariel-Rokem.ipynb
│ ├── 01.00-A-Taste-of-Machine-Learning.ipynb
│ ├── 02.00-Working-with-Data-in-OpenCV.ipynb
│ ├── 02.01-Dealing-with-Data-Using-Python-NumPy.ipynb
│ ├── 02.02-Loading-External-Datasets-in-Python.ipynb
│ ├── 02.03-Visualizing-Data-Using-Matplotlib.ipynb
│ ├── 02.04-Visualizing-Data-from-an-External-Dataset.ipynb
│ ├── 02.05-Dealing-with-Data-Using-the-OpenCV-TrainData-Container-in-C .ipynb
│ ├── 03.00-First-Steps-in-Supervised-Learning.ipynb
│ ├── 03.01-Measuring-Model-Performance-with-Scoring-Functions.ipynb
│ ├── 03.02-Understanding-the-k-NN-Algorithm.ipynb
│ ├── 03.03-Using-Regression-Models-to-Predict-Continuous-Outcomes.ipynb
│ ├── 03.04-Applying-Lasso-and-Ridge-Regression.ipynb
│ ├── 03.05-Classifying-Iris-Species-Using-Logistic-Regression.ipynb
│ ├── 04.00-Representing-Data-and-Engineering-Features.ipynb
│ ├── 04.01-Preprocessing-Data.ipynb
│ ├── 04.02-Reducing-the-Dimensionality-of-the-Data.ipynb
│ ├── 04.03-Representing-Categorical-Variables.ipynb
│ ├── 04.04-Represening-Text-Features.ipynb
│ ├── 04.05-Representing-Images.ipynb
│ ├── 05.00-Using-Decision-Trees-to-Make-a-Medical-Diagnosis.ipynb
│ ├── 05.01-Building-Our-First-Decision-Tree.ipynb
│ ├── 05.02-Using-Decision-Trees-to-Diagnose-Breast-Cancer.ipynb
│ ├── 05.03-Using-Decision-Trees-for-Regression.ipynb
│ ├── 06.00-Detecting-Pedestrians-with-Support-Vector-Machines.ipynb
│ ├── 06.01-Implementing-Your-First-Support-Vector-Machine.ipynb
│ ├── 06.02-Detecting-Pedestrians-in-the-Wild.ipynb
│ ├── 06.03-Additional-SVM-Exercises.ipynb
│ ├── 07.00-Implementing-a-Spam-Filter-with-Bayesian-Learning.ipynb
│ ├── 07.01-Implementing-Our-First-Bayesian-Classifier.ipynb
│ ├── 07.02-Classifying-Emails-Using-Naive-Bayes.ipynb
│ ├── 08.00-Discovering-Hidden-Structures-with-Unsupervised-Learning.ipynb
│ ├── 08.01-Understanding-k-Means-Clustering.ipynb
│ ├── 08.02-Compressing-Color-Images-Using-k-Means.ipynb
│ ├── 08.03-Classifying-Handwritten-Digits-Using-k-Means.ipynb
│ ├── 08.04-Implementing-Agglomerative-Hierarchical-Clustering.ipynb
│ ├── 09.00-Using-Deep-Learning-to-Classify-Handwritten-Digits.ipynb
│ ├── 09.01-Understanding-perceptrons.ipynb
│ ├── 09.02-Implementing-a-Multi-Layer-Perceptron-in-OpenCV.ipynb
│ ├── 09.03-Getting-Acquainted-with-Deep-Learning.ipynb
│ ├── 09.04-Training-an-MLP-in-OpenCV-to-Classify-Handwritten-Digits.ipynb
│ ├── 09.05-Training-a-Deep-Neural-Net-to-Classify-Handwritten-Digits-Using-Keras.ipynb
│ ├── 10.00-Combining-Different-Algorithms-Into-an-Ensemble.ipynb
│ ├── 10.01-Understanding-Ensemble-Methods.ipynb
│ ├── 10.02-Combining-Decision-Trees-Into-a-Random-Forest.ipynb
│ ├── 10.03-Using-Random-Forests-for-Face-Recognition.ipynb
│ ├── 10.04-Implementing-AdaBoost.ipynb
│ ├── 10.05-Combining-Different-Models-Into-a-Voting-Classifier.ipynb
│ ├── 11.00-Selecting-the-Right-Model-with-Hyper-Parameter-Tuning.ipynb
│ ├── 11.01-Evaluating-a-Model.ipynb
│ ├── 11.02-Understanding-Cross-Validation-Bootstrapping-and-McNemar's-Test.ipynb
│ ├── 11.03-Tuning-Hyperparameters-with-Grid-Search.ipynb
│ ├── 11.04-Chaining-Algorithms-Together-to-Form-a-Pipeline.ipynb
│ ├── 12.00-Wrapping-Up.ipynb
│ ├── data
│ │ ├── chapter6
│ │ │ ├── pedestrians128x64.tar.gz
│ │ │ ├── pedestrians_neg.tar.gz
│ │ │ └── pedestrian_test.jpg
│ │ ├── chapter7
│ │ │ ├── beck-s.tar.gz
│ │ │ ├── BG.tar.gz
│ │ │ ├── farmer-d.tar.gz
│ │ │ ├── GP.tar.gz
│ │ │ ├── kaminski-v.tar.gz
│ │ │ ├── kitchen-l.tar.gz
│ │ │ ├── lokay-m.tar.gz
│ │ │ ├── SH.tar.gz
│ │ │ └── williams-w3.tar.gz
│ │ ├── cover.jpg
│ │ ├── haarcascade_frontalface_default.xml
│ │ └── lena.jpg
│ └── figures
│ ├── 02.03-sine.png
│ ├── 02.04-digit0.png
│ └── 02.04-digits0-9.png
├── README.md
├── requirements.txt
└── tools
├── add_book_info.py
├── add_navigation.py
├── fix_kernelspec.py
├── generate_contents.py
└── README.md
7 directories, 82 files
标签:
好例子网口号:伸出你的我的手 — 分享!
小贴士
感谢您为本站写下的评论,您的评论对其它用户来说具有重要的参考价值,所以请认真填写。
- 类似“顶”、“沙发”之类没有营养的文字,对勤劳贡献的楼主来说是令人沮丧的反馈信息。
- 相信您也不想看到一排文字/表情墙,所以请不要反馈意义不大的重复字符,也请尽量不要纯表情的回复。
- 提问之前请再仔细看一遍楼主的说明,或许是您遗漏了。
- 请勿到处挖坑绊人、招贴广告。既占空间让人厌烦,又没人会搭理,于人于己都无利。
关于好例子网
本站旨在为广大IT学习爱好者提供一个非营利性互相学习交流分享平台。本站所有资源都可以被免费获取学习研究。本站资源来自网友分享,对搜索内容的合法性不具有预见性、识别性、控制性,仅供学习研究,请务必在下载后24小时内给予删除,不得用于其他任何用途,否则后果自负。基于互联网的特殊性,平台无法对用户传输的作品、信息、内容的权属或合法性、安全性、合规性、真实性、科学性、完整权、有效性等进行实质审查;无论平台是否已进行审查,用户均应自行承担因其传输的作品、信息、内容而可能或已经产生的侵权或权属纠纷等法律责任。本站所有资源不代表本站的观点或立场,基于网友分享,根据中国法律《信息网络传播权保护条例》第二十二与二十三条之规定,若资源存在侵权或相关问题请联系本站客服人员,点此联系我们。关于更多版权及免责申明参见 版权及免责申明
网友评论
我要评论