# Step 5: LDA (if labels exist) if labels is not None: lda = LDA(n_components=min(2, len(np.unique(labels))-1)) lda_scores = lda.fit_transform(data_scaled, labels) print("LDA applied. Reduced shape:", lda_scores.shape) # LDA scatter plot plt.figure() for lab in np.unique(labels): subset = lda_scores[labels == lab] plt.scatter(subset[:,0], subset[:,1], label=f'Class {lab}') plt.legend() plt.title('LDA Projection') plt.savefig('lda_plot.png')
# Step 3: PCA pca = PCA(n_components=min(data_scaled.shape[1], 10)) pca_scores = pca.fit_transform(data_scaled) cum_var = np.cumsum(pca.explained_variance_ratio_) n_comp = np.argmax(cum_var >= variance_threshold) + 1 print(f"Optimal PCA components: {n_comp} (explained {cum_var[n_comp-1]:.2%})") mva script
# Step 2: Scale features scaler = StandardScaler() data_scaled = scaler.fit_transform(data_imp) # Step 5: LDA (if labels exist) if