新增 HOG + LogisticRegression 纯传统基线模型(零神经网络依赖)
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3 changed files with 153 additions and 3 deletions
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.gitignore
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@ -17,6 +17,7 @@
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!/baseline/VGG_KNN.py
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!/baseline/compare_models.py
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!/baseline/ResNet34_Pretrained_10pct.py
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!/baseline/HOG_Baseline.py
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!/training_log.csv
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!/confusion_matrix.png
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!/roc_curve.png
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baseline/HOG_Baseline.py
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baseline/HOG_Baseline.py
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"""
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baseline/HOG_Baseline.py
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HOG + 颜色直方图特征提取 + LogisticRegression 四分类
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纯传统 CV/ML 基线,零神经网络依赖
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可独立运行,也可被 compare_models.py 导入
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author: yukun-hh
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date: 2026-5-14
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"""
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import sys, os
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sys.path.insert(0, os.path.dirname(os.path.dirname(os.path.abspath(__file__))))
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import numpy as np
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from PIL import Image
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from tqdm import tqdm
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import matplotlib.pyplot as plt
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import matplotlib
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from skimage.feature import hog
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from sklearn.linear_model import LogisticRegression
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from sklearn.metrics import (
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accuracy_score, f1_score,
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confusion_matrix, ConfusionMatrixDisplay,
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classification_report,
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)
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matplotlib.rcParams['font.sans-serif'] = ['SimHei', 'DejaVu Sans']
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matplotlib.rcParams['axes.unicode_minus'] = False
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# ============================================================
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# ★★★ 可配置参数 ★★★
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# ============================================================
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DATA_ROOT = '../../trash_division_data/ultimate_4_class/'
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IMAGE_SIZE = 128
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HOG_ORIENTATIONS = 9
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HOG_PIXELS_PER_CELL = (8, 8)
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HOG_CELLS_PER_BLOCK = (2, 2)
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COLOR_BINS = 32
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# ============================================================
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CLASS_NAMES = ['厨余垃圾', '可回收物', '其他垃圾', '有害垃圾']
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NUM_CLASSES = 4
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def extract_hog_color(image):
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img = image.convert('RGB').resize((IMAGE_SIZE, IMAGE_SIZE))
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arr = np.array(img, dtype=np.float64) / 255.0
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hog_feat = hog(arr, orientations=HOG_ORIENTATIONS,
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pixels_per_cell=HOG_PIXELS_PER_CELL,
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cells_per_block=HOG_CELLS_PER_BLOCK,
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channel_axis=2, feature_vector=True)
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color_feat = []
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for c in range(3):
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hist, _ = np.histogram(arr[:, :, c], bins=COLOR_BINS, range=(0, 1))
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color_feat.append(hist)
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color_feat = np.concatenate(color_feat)
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return np.concatenate([hog_feat, color_feat])
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class HOGLRBaseline:
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def __init__(self, data_root=DATA_ROOT, image_size=IMAGE_SIZE):
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self.data_root = data_root
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self.image_size = image_size
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self.clf = LogisticRegression(
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C=1.0, max_iter=1000,
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multi_class='multinomial', solver='lbfgs',
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n_jobs=-1,
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)
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def _load_data(self, split):
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dir_path = os.path.join(self.data_root, split)
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features, labels = [], []
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for class_id in range(1, NUM_CLASSES + 1):
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class_dir = os.path.join(dir_path, str(class_id))
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if not os.path.isdir(class_dir):
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continue
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files = sorted(os.listdir(class_dir))
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for fname in tqdm(files, desc=f'{split}/class_{class_id}'):
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fpath = os.path.join(class_dir, fname)
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try:
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with Image.open(fpath) as img:
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feat = extract_hog_color(img)
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features.append(feat)
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labels.append(class_id - 1)
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except Exception:
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pass
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print(f" {split}: {len(features)} 张")
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return np.array(features, dtype=np.float32), np.array(labels)
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def fit(self, train_dir=None):
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if train_dir is None:
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train_dir = 'train'
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print(" 提取训练集 HOG 特征 ...")
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X, y = self._load_data(train_dir)
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self.clf.fit(X, y)
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def predict(self, val_dir=None):
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if val_dir is None:
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val_dir = 'val'
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print(" 提取验证集 HOG 特征 ...")
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X, y = self._load_data(val_dir)
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preds = self.clf.predict(X)
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probs = self.clf.predict_proba(X)
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return y, preds, probs
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# ============================================================
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# compare_models.py 导入接口
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# ============================================================
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def get_hog_lr_preds(train_loader, val_loader, device):
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baseline = HOGLRBaseline()
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baseline.fit('train')
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return baseline.predict('val')
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# ============================================================
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# 独立运行入口
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# ============================================================
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if __name__ == '__main__':
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out_dir = os.path.dirname(os.path.abspath(__file__))
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print("HOG + LogisticRegression 基线")
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baseline = HOGLRBaseline()
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baseline.fit('train')
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y_true, y_preds, y_probs = baseline.predict('val')
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acc = accuracy_score(y_true, y_preds)
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macro_f1 = f1_score(y_true, y_preds, average='macro')
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print(f"\n验证集 Accuracy: {acc:.4f}")
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print(f"验证集 Macro-F1: {macro_f1:.4f}")
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print(f"\n分类报告:\n{classification_report(y_true, y_preds, target_names=CLASS_NAMES)}")
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cm = confusion_matrix(y_true, y_preds)
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fig, ax = plt.subplots(figsize=(8, 7))
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ConfusionMatrixDisplay(cm, display_labels=CLASS_NAMES).plot(
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ax=ax, cmap='Blues', values_format='d', xticks_rotation=30)
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ax.set_title('HOG + LogisticRegression 混淆矩阵', fontsize=14)
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plt.tight_layout()
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cm_path = os.path.join(out_dir, 'hog_lr_confusion_matrix.png')
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plt.savefig(cm_path, dpi=150, bbox_inches='tight')
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plt.show()
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print(f"混淆矩阵已保存: {cm_path}")
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@ -26,6 +26,7 @@ from Model import Net
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from Dataloader import RobustImageFolder
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from baseline.VGG_KNN import VGGKNNBaseline
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from baseline.ResNet34_Pretrained_10pct import get_resnet34_10pct_preds
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from baseline.HOG_Baseline import get_hog_lr_preds
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matplotlib.rcParams['font.sans-serif'] = ['SimHei', 'DejaVu Sans']
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matplotlib.rcParams['axes.unicode_minus'] = False
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@ -84,6 +85,7 @@ MODELS = [
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('ResNet-34', get_resnet34_preds),
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('ResNet-34 (10% Fine-tune)', get_resnet34_10pct_preds),
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('VGG16 + KNN (K=5)', get_vgg_knn_preds),
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('HOG + LogisticRegression', get_hog_lr_preds),
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# 未来轻松扩展示例:
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# ('ResNet-18 (pretrained)', get_resnet18_preds),
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# ('ResNet-50 (pretrained)', get_resnet50_preds),
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