Semi-Supervised Aggregation of Dependent Weak Supervision Sources with Performance Guarantees - Code
These instructions will setup our experiments to run on your local machine. Since our experiments involve training a large (85!) number of neural networks, it is significantly more efficient to train these in parallel.
In a virtual environment, please install the dependencies using
pip install -r requirements.txt
Or alternatively
conda install --file requirements.txt
You will also need the BatsResearch/labelmodels/ Github repository, which you can find here: https://github.com/BatsResearch/labelmodels. We mainly use this repository for the Semi-Supervised Dawid Skene implementation.
You should clone the repository in the "models/" directory, making "models/labelmodels". After installing the respository, you will need to switch to the semi branch of labelmodels by running
git checkout semi
from the "models/labelmodels" directory.
Our experiments are performed on the Animals with Attributes 2 dataset. To setup our experiments, you will first need to download the dataset of images and move the Animals with_Attributes folder into the "data/" directory.
Next, you will need to generate our weak supervision sources and convert the image data into numpy matrices, which can be done by running
python setup.py --train True
This will first generate numpy files and a pickle file in the "data/" directory of the Animals with Attributes 2 data. Additionaly, this script will train all of the 85 weak labelers. You can batch this up into multiple jobs to significantly speed up training. This script will fine tune pytorch ResNet18s and save the weights in the "data/weak_labelers/" directory.
Next, we will apply each of these trained weak labelers to the image data and save the outputs. You will need to run
python setup.py --create True --create_signals True
This will create numpy matrices of the weak labelers' soft and hard votes on the images and save them in "data/votes" (hard) and "data/signals" (soft).
After creating the weak labelers and storing their hard and soft votes, you can start running our experiments. You can run the experiments that make up the table in our paper by running
python main.py
You can run the experiments used in our figures (with varying amounts of labeled data) by running
python vary_labeled_data.py
Both of these scripts have various flags that you can pass in to run the variants of our method or the baselines.
Please cite the following paper if you use our work. Thanks!
Alessio Mazzetto, Dylan Sam, Andrew Park, Eli Upfal, Stephen H. Bach. "Semi-Supervised Aggregation of Dependent Weak Supervision Sources with Performance Guarantees". Artificial Intelligence and Statistics (AISTATS), 2021.
@inproceedings{mazzetto2021semi,
title={Semi-supervised aggregation of dependent weak supervision sources with performance guarantees},
author={Mazzetto, Alessio and Sam, Dylan and Park, Andrew and Upfal, Eli and Bach, Stephen},
booktitle={International Conference on Artificial Intelligence and Statistics},
pages={3196--3204},
year={2021},
organization={PMLR}
}