For MRE:
m = 100
X = 6*np.random.rand(m,1)-3
y = 0.5*X**2 + X+2 + np.random.randn(m,1)
lin_reg = LinearRegression()
lin_reg.fit(X,y)
y_pred_1 = lin_reg.predict(X)
y_pred_1 = [_[0] for _ in y_pred_1]
Plotting (X,y) on the graph works fine. Plotting (X, y_pred_1) gives me a line of best fit. Now since my y value above is created using X to the power of 2 thus it would look like a parabola.
So best fitting line would not be linear in this case but polynomaial with degree 2.
So I do:
poly_features = PolynomialFeatures(degree=2, include_bias=False)
X_poly_2 = poly_features.fit_transform(X)
poly_reg_2 = LinearRegression()
poly_reg_2.fit(X_poly_2, y)
y_pred_2 = poly_reg_2.predict(X_poly_2)
y_pred_2 = [_[0] for _ in y_pred_2]
and plot it on my graph which gives me something like a parabola but contains too much line. here is what I get when I plot points, predicting line of 1-degree, prediction line of 2-degree.
Using ploty:
import plotly.graph_objects as go
plot_X = [_[0] for _ in X.tolist()]
plot_y = [_[0] for _ in y.tolist()]
fig = go.Figure()
fig.add_trace(
go.Scatter(
x = plot_X,
y = plot_y,
mode="markers"
)
)
fig.add_trace(
go.Scatter(
x = plot_X,
y = y_pred_1,
name="degree = 1"
)
)
fig.add_trace(
go.Scatter(
x = plot_X,
y = y_pred_2,
name="degree = 2"
)
)
fig.show()
which outputs 
What am I doing wrong?
Out of curiosity why does sklearn use linear regression to predict non-linear things like parabola in my case?
Also if I run
poly_reg_2.coef_ it gives me array([[0.99366804, 0.45225746]]) how would I interpret this?
y = 0.99366804x + 0.45225746x was what I've thought but then it would not draw parabola how do you know which coefficient to raise to a power of 2 and which one to keep it degree =1?
EDIT: when I plot using
fig.add_trace(
go.Scatter(
x = plot_X,
y = y_pred_2,
name="degree = 2",
mode="markers"
)
)
adding mode parameter and setting it to marker which creates a scatterplot it seems to show work fine but in scatterplot.
