TINTOlib is a state-of-the-art library that wraps the most important techniques for the construction of Synthetic Images from Sorted Data (also known as Tabular Data).
Citing TINTO: If you used TINTO in your work, please cite the SoftwareX:
@article{softwarex_TINTO,
title = {TINTO: Converting Tidy Data into Image for Classification with 2-Dimensional Convolutional Neural Networks},
journal = {SoftwareX},
author = {Manuel Castillo-Cara and Reewos Talla-Chumpitaz and Raúl García-Castro and Luis Orozco-Barbosa},
volume={22},
pages={101391},
year = {2023},
issn = {2352-7110},
doi = {https://doi.org/10.1016/j.softx.2023.101391}
}
And use-case developed in INFFUS Paper
@article{inffus_TINTO,
title = {A novel deep learning approach using blurring image techniques for Bluetooth-based indoor localisation},
journal = {Information Fusion},
author = {Reewos Talla-Chumpitaz and Manuel Castillo-Cara and Luis Orozco-Barbosa and Raúl García-Castro},
volume = {91},
pages = {173-186},
year = {2023},
issn = {1566-2535},
doi = {https://doi.org/10.1016/j.inffus.2022.10.011}
}
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Input data formats (2 options):
- Pandas Dataframe
- Files with the following format
-
Runs on Linux, Windows and macOS systems.
-
Compatible with Python 3.7 or higher.
Model | Class | Features | Hyperparameters |
---|---|---|---|
TINTO | TINTO() |
blur |
problem algorithm pixels submatrix blur amplification distance steps option random_seed times verbose |
IGTD | IGTD() |
problem scale fea_dist_method image_dist_method max_step val_step error switch_t min_gain zoom random_seed verbose |
|
REFINED | REFINED() |
problem n_processors hcIterations zoom random_seed verbose |
|
BarGraph | BarGraph() |
problem pixel_width gap zoom verbose |
|
DistanceMatrix | DistanceMatrix() |
problem zoom verbose |
|
Combination | Combination() |
problem zoom verbose |
|
SuperTML | SuperTML() |
problem columns font_size image_size verbose |
|
FeatureWrap | FeatureWrap() |
problem size bins zoom verbose |
|
BIE | BIE() |
problem precision zoom verbose |
You can install TINTOlib using Pypi:
pip install torchmetrics pytorch_lightning TINTOlib imblearn keras_preprocessing mpi4py
To import a specific model use
from TINTOlib.tinto import TINTO
Create the model. If you don't set any hyperparameter, the model will use the default values (read documentation).
model = TINTO(blur=True)
To generate the synthetic images use .generateImages(data,folder)
method.
model.generateImages(data, resultsFolderPath)
Once the images have been created by TINTO, they can be imported into any project using CNNs.
In order to facilitate their use, a Jupyter Notebook has been created in which you can see how the images are read and how they can be used as input in a CNN.
- Click here to TINTOlib crash course using classification ML problems with CNNs in Google Colab
- Click here to TINTOlib crash course using classification ML problems with hybrid multimodal CNN+MLP in Google Colab
- Click here to TINTOlib crash course using regression ML problems with hybrid multimodal CNN+MLP in Google Colab
For example, the following table shows a classic example of the IRIS CSV dataset as it should look like for the run:
sepal length | sepal width | petal length | petal width | target |
---|---|---|---|---|
4.9 | 3.0 | 1.4 | 0.2 | 1 |
7.0 | 3.2 | 4.7 | 1.4 | 2 |
6.3 | 3.3 | 6.0 | 2.5 | 3 |
The following example shows how to create 20x20 images with characteristic pixels, i.e. without blurring. Also, as no other parameters are indicated, you will choose the following parameters which are set by default:
- Image size: 20x20 pixels
- Blurring: No blurring will be used.
- Seed: with the seed set to 20.
The following example shows how to create with blurring with a more especific parameters.
The images are created with the following considerations regarding the parameters used:
- Blurring (-B): Create the images with blurring technique.
- Dimensional Reduction Algorithm (-alg): t-SNE is used.
- Blurring option (-oB): Create de images with maximum value of overlaping pixel
- Image size (-px): 30x30 pixels
- Blurring steps (-sB): Expand 5 pixels the blurring.
TINTOlib is available under the Apache License 2.0.