Alpha Hybrid CNN model for Image classification tasks
Project description
NetAlpha
NetAlpha is a Python package designed to train a multi-branch Convolutional Neural Network (CNN) model that integrates ResNet50V2 and DenseNet169 architectures for superior image classification tasks.
Table of Contents
- Introduction
- Features
- Installation
- Usage
- Programmatic Usage
- Project Structure
- Documentation
- Contributing
- License
- Contact
- Acknowledgments
Introduction
NetAlpha offers a hybrid architecture combining the strengths of ResNet50V2 and DenseNet169 for high-performance image classification. By integrating these architectures, NetAlpha provides robust feature extraction and better generalization for diverse datasets.
Features
- Hybrid Architecture: Combines ResNet50V2 and DenseNet169 for enhanced feature extraction.
- Data Augmentation: Advanced augmentation techniques to improve model robustness.
- Early Stopping & Learning Rate Scheduling: Built-in callbacks for better training control.
- Command-Line Interface (CLI): Simplified training and configuration through CLI commands.
- Customizable Hyperparameters: Fine-tune learning rate, batch size, and more.
- Training Visualization: Plot training and validation metrics for better insights.
Installation
Prerequisites
- Python: Version 3.6 or higher.
- TensorFlow: Version 2.x or later.
- pip: Latest version recommended.
Installation via Pip
Install NetAlpha directly from PyPI:
pip install netalpha
Usage
Command-Line Interface
Once installed, you can use the netalpha_train command.
Basic Usage
netalpha_train --train_dir PATH_TO_TRAIN_DIR --val_dir PATH_TO_VAL_DIR [OPTIONS]
Options
--train_dir: (Required) Path to the training data directory.--val_dir: (Required) Path to the validation data directory.--epochs: Number of epochs (default: 50).--batch_size: Batch size (default: 8).--initial_lr: Initial learning rate (default: 1e-4).--output_dir: Directory to save model outputs (default:./).--plot: Add this flag to generate training plots.
Help
To see a detailed list of options, run:
netalpha_train --help
Examples
Example 1: Basic Training
netalpha_train --train_dir ./data/train --val_dir ./data/val --epochs 30 --batch_size 16
Example 2: Training with Custom Parameters
netalpha_train --train_dir ./data/train --val_dir ./data/val --epochs 40 --batch_size 32 --initial_lr 5e-5 --output_dir ./outputs --plot
Data Preparation
Organize your dataset as follows:
dataset/
├── train/
│ ├── class1/
│ │ ├── image1.jpg
│ │ ├── image2.jpg
│ │ └── ...
│ └── class2/
│ ├── image1.jpg
│ ├── image2.jpg
│ └── ...
└── val/
├── class1/
│ ├── image1.jpg
│ ├── image2.jpg
│ └── ...
└── class2/
├── image1.jpg
├── image2.jpg
└── ...
Programmatic Usage
NetAlpha can also be used in Python scripts:
from netalpha import build_model
# Build the model
model = build_model(input_shape=(224, 224, 3), num_classes=2)
# Compile the model
model.compile(
optimizer="adam",
loss="categorical_crossentropy",
metrics=["accuracy"]
)
# Train or evaluate as needed
Project Structure
netalpha/
├── netalpha/
│ ├── __init__.py
│ ├── model.py
│ └── utils.py
├── scripts/
│ └── train_model.py
├── setup.py
├── README.md
├── LICENSE
└── requirements.txt
Documentation
For detailed documentation, visit the GitHub repository.
Contributing
Contributions are welcome! Follow these steps to contribute:
- Fork the repository.
- Clone your fork:
git clone https://github.com/yourusername/netalpha.git
- Create a new branch:
git checkout -b feature/new-feature
- Commit your changes:
git commit -am "Add new feature"
- Push the branch:
git push origin feature/new-feature
- Open a pull request.
Reporting Issues
If you encounter any issues, please open an issue.
License
This project is licensed under the MIT License - see the LICENSE file for details.
Contact
- Author: Ihtesham Jahangir
- Email: ihteshamjahangir21@gmail.com
- GitHub: ihtesham-jahangir
Acknowledgments
- TensorFlow and Keras Teams: For their excellent frameworks.
- Researchers: Behind ResNet and DenseNet architectures.
- Open Source Community: For fostering innovation and collaboration.
This README provides detailed information about NetAlpha, making it easy for users to install, use, and contribute to the project.
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