通过多项式拟合来交互地探索这些概念
import math
import numpy as np
import torch
from torch import nn
from d2l import torch as d2l
使用以下三阶多项式来生成训练和测试数据的标签: $$y = 5 + 1.2x - 3.4\frac{x^2}{2!} + 5.6 \frac{x^3}{3!} + \epsilon \text{ where } \epsilon \sim \mathcal{N}(0, 0.1^2)$$
max_degree = 20
n_train, n_test = 100, 100
true_w = np.zeros(max_degree)
true_w[0:4] = np.array([5, 1.2, -3.4, 5.6])
features = np.random.normal(size=(n_train + n_test, 1))
np.random.shuffle(features)
poly_features = np.power(features, np.arange(max_degree).reshape(1, -1))
for i in range(max_degree):
poly_features[:, i] /= math.gamma(i + 1)
labels = np.dot(poly_features, true_w)
labels += np.random.normal(scale=0.1, size=labels.shape)
看一下前2个样本
true_w, features, poly_features, labels = [
torch.tensor(x, dtype=torch.float32)
for x in [true_w, features, poly_features, labels]]
features[:2], poly_features[:2, :], labels[:2]
(tensor([[-1.9729], [-0.1230]]), tensor([[ 1.0000e+00, -1.9729e+00, 1.9462e+00, -1.2799e+00, 6.3127e-01, -2.4909e-01, 8.1905e-02, -2.3084e-02, 5.6929e-03, -1.2480e-03, 2.4621e-04, -4.4159e-05, 7.2602e-06, -1.1018e-06, 1.5527e-07, -2.0422e-08, 2.5182e-09, -2.9225e-10, 3.2032e-11, -3.3262e-12], [ 1.0000e+00, -1.2304e-01, 7.5698e-03, -3.1047e-04, 9.5502e-06, -2.3502e-07, 4.8195e-09, -8.4715e-11, 1.3030e-12, -1.7813e-14, 2.1918e-16, -2.4517e-18, 2.5138e-20, -2.3793e-22, 2.0911e-24, -1.7153e-26, 1.3191e-28, -9.5474e-31, 6.5263e-33, -4.2264e-35]]), tensor([-11.1878, 4.9593]))
实现一个函数来评估模型在给定数据集上的损失
def evaluate_loss(net, data_iter, loss):
"""评估给定数据集上模型的损失。"""
metric = d2l.Accumulator(2)
for X, y in data_iter:
out = net(X)
y = y.reshape(out.shape)
l = loss(out, y)
metric.add(l.sum(), l.numel())
return metric[0] / metric[1]
定义训练函数
def train(train_features, test_features, train_labels, test_labels,
num_epochs=400):
loss = nn.MSELoss()
input_shape = train_features.shape[-1]
net = nn.Sequential(nn.Linear(input_shape, 1, bias=False))
batch_size = min(10, train_labels.shape[0])
train_iter = d2l.load_array((train_features, train_labels.reshape(-1, 1)),
batch_size)
test_iter = d2l.load_array((test_features, test_labels.reshape(-1, 1)),
batch_size, is_train=False)
trainer = torch.optim.SGD(net.parameters(), lr=0.01)
animator = d2l.Animator(xlabel='epoch', ylabel='loss', yscale='log',
xlim=[1, num_epochs], ylim=[1e-3, 1e2],
legend=['train', 'test'])
for epoch in range(num_epochs):
d2l.train_epoch_ch3(net, train_iter, loss, trainer)
if epoch == 0 or (epoch + 1) % 20 == 0:
animator.add(epoch + 1, (evaluate_loss(
net, train_iter, loss), evaluate_loss(net, test_iter, loss)))
print('weight:', net[0].weight.data.numpy())
三阶多项式函数拟合(正态)
train(poly_features[:n_train, :4], poly_features[n_train:, :4],
labels[:n_train], labels[n_train:])
weight: [[ 4.994806 1.2026892 -3.390093 5.61095 ]]
线性函数拟合(欠拟合)
train(poly_features[:n_train, :2], poly_features[n_train:, :2],
labels[:n_train], labels[n_train:])
weight: [[3.4597428 3.9528937]]
高阶多项式函数拟合(过拟合)
train(poly_features[:n_train, :], poly_features[n_train:, :],
labels[:n_train], labels[n_train:], num_epochs=1500)
weight: [[ 4.9564543e+00 1.2192174e+00 -3.2015967e+00 5.4091620e+00 -5.5862081e-01 9.4079292e-01 1.6903839e-01 -1.2290818e-01 1.0401705e-02 -4.0972054e-02 8.2412558e-03 -5.3764634e-02 -6.9650121e-02 -1.5937085e-01 -4.1621658e-03 9.0129197e-02 -8.8063665e-02 -1.5993164e-01 1.6256860e-02 2.6524325e-03]]