#!/usr/bin/env python# -*- coding: utf-8 -*-# @File : 自實現(xiàn)一個線性回歸.py# @Author: 趙路倉# @Date : 2020/4/12# @Desc :# @Contact : 398333404@qq.comimport osimport tensorflow as tfdef linear_regression(): ''' 自實現(xiàn)一個線性回歸 :return: ''' # 命名空間 with tf.variable_scope('prepared_data'): # 準備數(shù)據(jù) x = tf.random_normal(shape=[100, 1], name='Feature') y_true = tf.matmul(x, [[0.08]]) + 0.7 # x = tf.constant([[1.0], [2.0], [3.0]]) # y_true = tf.constant([[0.78], [0.86], [0.94]]) with tf.variable_scope('create_model'): # 2.構造函數(shù) # 定義模型變量參數(shù) weights = tf.Variable(initial_value=tf.random_normal(shape=[1, 1], name='Weights')) bias = tf.Variable(initial_value=tf.random_normal(shape=[1, 1], name='Bias')) y_predit = tf.matmul(x, weights) + bias with tf.variable_scope('loss_function'): # 3.構造損失函數(shù) error = tf.reduce_mean(tf.square(y_predit - y_true)) with tf.variable_scope('optimizer'): # 4.優(yōu)化損失 optimizer = tf.train.GradientDescentOptimizer(learning_rate=0.01).minimize(error) # 收集變量 tf.summary.scalar('error', error) tf.summary.histogram('weights', weights) tf.summary.histogram('bias', bias) # 合并變量 merged = tf.summary.merge_all() # 創(chuàng)建saver對象 saver = tf.train.Saver() # 顯式的初始化變量 init = tf.global_variables_initializer() # 開啟會話 with tf.Session() as sess: # 初始化變量 sess.run(init) # 創(chuàng)建事件文件 file_writer = tf.summary.FileWriter('E:/tmp/linear', graph=sess.graph) # print(x.eval()) # print(y_true.eval()) # 查看初始化變量模型參數(shù)之后的值 print('訓練前模型參數(shù)為:權重%f,偏置%f' % (weights.eval(), bias.eval())) # 開始訓練 for i in range(1000): sess.run(optimizer) print('第%d次參數(shù)為：權重%f,偏置%f,損失%f' % (i + 1, weights.eval(), bias.eval(), error.eval())) # 運行合并變量操作 summary = sess.run(merged) # 將每次迭代后的變量寫入事件 file_writer.add_summary(summary, i) # 保存模型 if i == 999:saver.save(sess, './tmp/model/my_linear.ckpt') # # 加載模型 # if os.path.exists('./tmp/model/checkpoint'): # saver.restore(sess, './tmp/model/my_linear.ckpt') print('參數(shù)為：權重%f,偏置%f,損失%f' % (weights.eval(), bias.eval(), error.eval())) pre = [[0.5]] prediction = tf.matmul(pre, weights) + bias sess.run(prediction) print(prediction.eval()) return Noneif __name__ == '__main__': linear_regression()

以上就是python 實現(xiàn)一個簡單的線性回歸案例的詳細內(nèi)容，更多關于python 實現(xiàn)線性回歸的資料請關注好吧啦網(wǎng)其它相關文章！