Instance noise reduction framework based on Deep Learning gradients agnostic to the network architecture.
Project description
DenoGrad: Deep Gradient Denoising Framework
📄 Description
DenoGrad is a novel gradient-based denoising framework designed to enhance the robustness and performance of Artificial Intelligence models, with a specific focus on interpretable (white-box) models.
Unlike conventional techniques that simply remove noisy instances or significantly alter the data distribution, DenoGrad leverages the gradients of a reference Deep Learning (DL) model—trained on the target data—to dynamically detect and correct noisy samples.
🚀 Key Features
- Gradient-Based Correction: Utilizes gradient information from deep models to guide the noise reduction process effectively.
- Distribution Preservation: Corrects instances while maintaining the original data distribution, avoiding oversimplification of the problem space.
- Task Agnostic: Validated effectively on both tabular data and time-series datasets.
- Interpretable AI Enhancement: Specifically engineered to boost the performance of interpretable models in noisy environments without sacrificing transparency.
🛠️ Installation
pip install denograd
📖 Basic Usage
from denograd import DenoGrad
# Initialize the denoiser with your reference model
denoiser = DenoGrad(
model=my_deep_model, # DL model fitted to noisy data
criterion=nn.MSE(),
is_ts=False, # Is it a time series problem?
is_cnn=False # Has the DL model a CNN layer at the beginning?
)
# Fit the noisy data
denoiser.fit(x_noisy, y_noisy)
# Denoise the dataset
x_clean, y_clean, x_gradients, y_gradients = transform(
nrr = 0.05, # Noise Reduction Rate. Same functionality as learning rate but for denoising porposes.
nr_threshold = 0.01, # "Level" of noise allowed.
max_epochs = 200, # Max number of epochs to perform the denoising process.
plot_progress = False, # 2D and 3D data exclusive.
path_to_save_imgs = '', # Path where to save the imgs generated for 2D or 3D data.
denoise_y = True, # It is recommended to set to False for time series (TS) problems.
batch_size = 1024, # Only used in TS problems.
save_gradients = True # Save all the gradients calculated through the denoising process.
)
📝 Citation
If you use DenoGrad in your research, please cite our paper:
@article{denograd2025, title={DenoGrad: Deep Gradient Denoising Framework for Enhancing the Performance of Interpretable AI Models}, author={Alonso-Ramos, J. Javier and [Other Authors]}, journal={arXiv preprint arXiv:2511.10161}, year={2025} }
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