language: en tags: - image-classification - computer-vision - deep-learning - face-detection - resnet datasets: - custom license: mit

ResNet-based Face Classification Model 🎭

This model is trained to distinguish between real human faces and AI-generated faces using a ResNet-based architecture.

Model Description πŸ“

Model Architecture

  • Deep CNN with residual connections based on ResNet architecture
  • Input shape: (224, 224, 3)
  • Multiple residual blocks with increasing filter sizes [64, 128, 256, 512]
  • Global average pooling
  • Dense layers with dropout for classification
  • Binary output with sigmoid activation

Task

Binary classification to determine if a face image is real (human) or AI-generated.

Framework and Training

  • Framework: TensorFlow
  • Training Device: GPU
  • Training Dataset: Custom dataset of real and AI-generated faces
  • Validation Metrics:
    • Accuracy: 52.45%
    • Loss: 0.7246

Intended Use 🎯

Primary Intended Uses

  • Research in deepfake detection
  • Educational purposes in deep learning
  • Face authentication systems

Out-of-Scope Uses

  • Production-level face verification
  • Legal or forensic applications
  • Stand-alone security systems

Training Procedure πŸ”„

Training Details

optimizer = Adam(learning_rate=0.0001)
loss = 'binary_crossentropy'
metrics = ['accuracy']

Training Hyperparameters

  • Learning rate: 0.0001
  • Batch size: 32
  • Dropout rate: 0.5
  • Architecture:
    • Initial conv: 64 filters, 7x7
    • Residual blocks: [64, 128, 256, 512] filters
    • Dense layer: 256 units

Evaluation Results πŸ“Š

Performance Metrics

  • Validation Accuracy: 52.45%
  • Validation Loss: 0.7246

Limitations

  • Performance is only slightly better than random chance
  • May struggle with high-quality AI-generated images
  • Limited testing on diverse face datasets

Usage πŸ’»

from tensorflow.keras.models import load_model
import cv2
import numpy as np

# Load the model
model = load_model('face_classification_model1')

# Preprocess image
def preprocess_image(image_path):
    img = cv2.imread(image_path)
    img = cv2.resize(img, (224, 224))
    img = img / 255.0
    return np.expand_dims(img, axis=0)

# Make prediction
image = preprocess_image('face_image.jpg')
prediction = model.predict(image)
is_real = prediction[0][0] > 0.5

Ethical Considerations 🀝

This model is designed for research and educational purposes only. Users should:

  • Obtain proper consent when processing personal face images
  • Be aware of potential biases in face detection systems
  • Consider privacy implications when using face analysis tools
  • Not use this model for surveillance or harmful applications

Technical Limitations ⚠️

  1. Current performance limitations:

    • Accuracy only slightly above random chance
    • May require ensemble methods for better results
    • Limited testing on diverse datasets
  2. Recommended improvements:

    • Extended training with larger datasets
    • Implementation of data augmentation
    • Hyperparameter optimization
    • Transfer learning from pre-trained models

Citation πŸ“š

@software{face_classification_model1,
  author = {Your Name},
  title = {Face Classification Model using ResNet Architecture},
  year = {2024},
  publisher = {HuggingFace},
  url = {https://huggingface.co/arsath-sm/face_classification_model1}
}

Contributors πŸ‘₯

  • Arsath S.M
  • Faahith K.R.M
  • Arafath M.S.M

University of Jaffna

License πŸ“„

This model is licensed under the MIT License.

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