Simple machine learning library / 簡單易用的機器學習套件
$ pip install FukuML
- Lesson 1: Perceptron Binary Classification Learning Algorithm
- Appendix 1: Play With Your Own Dataset
- Appendix 2: iNDIEVOX Open Data/API 智慧音樂應用:An Introduce to iNDIEVOX Open Data/API and the intelligent music application
- Perceptron
- Perceptron Binary Classification Learning Algorithm
- Perceptron Multi Classification Learning Algorithm
- Pocket Perceptron Binary Classification Learning Algorithm
- Pocket Perceptron Multi Classification Learning Algorithm
- Regression
- Linear Regression Learning Algorithm
- Linear Regression Binary Classification Learning Algorithm
- Linear Regression Multi Classification Learning Algorithm
- Ridge Regression Learning Algorithm
- Ridge Regression Binary Classification Learning Algorithm
- Ridge Regression Multi Classification Learning Algorithm
- Kernel Ridge Regression Learning Algorithm
- Kernel Ridge Regression Binary Classification Learning Algorithm
- Kernel Ridge Regression Multi Classification Learning Algorithm
- Logistic Regression
- Logistic Regression Learning Algorithm
- Logistic Regression Binary Classification Learning Algorithm
- Logistic Regression One vs All Multi Classification Learning Algorithm
- Logistic Regression One vs One Multi Classification Learning Algorithm
- L2 Regularized Logistic Regression Learning Algorithm
- L2 Regularized Logistic Regression Binary Classification Learning Algorithm
- Kernel Logistic Regression Learning Algorithm
- Support Vector Machine
- Primal Hard Margin Support Vector Machine Binary Classification Learning Algorithm
- Dual Hard Margin Support Vector Machine Binary Classification Learning Algorithm
- Polynomial Kernel Support Vector Machine Binary Classification Learning Algorithm
- Gaussian Kernel Support Vector Machine Binary Classification Learning Algorithm
- Soft Polynomial Kernel Support Vector Machine Binary Classification Learning Algorithm
- Soft Gaussian Kernel Support Vector Machine Binary Classification Learning Algorithm
- Polynomial Kernel Support Vector Machine Multi Classification Learning Algorithm
- Gaussian Kernel Support Vector Machine Multi Classification Learning Algorithm
- Soft Polynomial Kernel Support Vector Machine Multi Classification Learning Algorithm
- Soft Gaussian Kernel Support Vector Machine Multi Classification Learning Algorithm
- Probabilistic Support Vector Machine Learning Algorithm
- Least Squares Support Vector Machine Binary Classification Learning Algorithm
- Least Squares Support Vector Machine Multi Classification Learning Algorithm
- Support Vector Regression Learning Algorithm
- Decision Tree
- Decision Stump Binary Classification Learning Algorithm
- AdaBoost Stump Binary Classification Learning Algorithm
- AdaBoost Decision Tree Classification Learning Algorithm
- Gradient Boost Decision Tree Regression Learning Algorithm
- Decision Tree Classification Learning Algorithm
- Decision Tree Regression Learning Algorithm
- Random Forest Classification Learning Algorithm
- Random Forest Regression Learning Algorithm
- Neural Network
- Neural Network Learning Algorithm
- Neural Network Binary Classification Learning Algorithm
- Accelerator
- Linear Regression Accelerator
- Feature Transform
- Polynomial Feature Transform
- Legendre Feature Transform
- Validation
- 10 Fold Cross Validation
- Blending
- Uniform Blending for Classification
- Linear Blending for Classification
- Uniform Blending for Regression
- Linear Blending for Regression
>>> import numpy as np
# we need numpy as a base libray
>>> import FukuML.PLA as pla
# import FukuML.PLA to do Perceptron Learning
>>> your_input_data_file = '/path/to/your/data/file'
# assign your input data file, please check the data format: https://github.com/fukuball/fuku-ml/blob/master/FukuML/dataset/pla_binary_train.dat
>>> pla_bc = pla.BinaryClassifier()
# new a PLA binary classifier
>>> pla_bc.load_train_data(your_input_data_file)
# load train data
>>> pla_bc.set_param()
# set parameter
>>> pla_bc.init_W()
# init the W
>>> W = pla_bc.train()
# train by Perceptron Learning Algorithm to find best W
>>> test_data = 'Each feature of data x separated with spaces. And the ground truth y put in the end of line separated by a space'
# assign test data, format like this '0.97681 0.10723 0.64385 ........ 0.29556 1'
>>> prediction = pla_bc.prediction(test_data)
# prediction by trained W
>>> print prediction['input_data_x']
# print test data x
>>> print prediction['input_data_y']
# print test data y
>>> print prediction['prediction']
# print the prediction, will find out prediction is the same as pla_bc.test_data_y
For detail, please check https://github.com/fukuball/fuku-ml/blob/master/doc/sample_code.rst
python test_fuku_ml.py
pep8 FukuML/*.py --ignore=E501
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The MIT License (MIT)
Copyright (c) 2016 fukuball
Permission is hereby granted, free of charge, to any person obtaining a copy of this software and associated documentation files (the "Software"), to deal in the Software without restriction, including without limitation the rights to use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies of the Software, and to permit persons to whom the Software is furnished to do so, subject to the following conditions:
The above copyright notice and this permission notice shall be included in all copies or substantial portions of the Software.
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