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Overview

This repository describes an algorithm, designed to reduce the number of infections during a spreading process, such as an epidemic, on both static and time-varying weighted networks. With theoretical guarantees, this algorithm minimizes the sum of the largest r singular values in the network by iterating through finding the gradient descent direction of the objective. The descent direction is given by a greedy selection of edges with the highest edge centrality values, resulting in an effective edge weight reduction method. Our algorithm exhibits significant performance on mobility networks and weighted graphs, and we offer the code to run experiments on these networks.

Requirements

To install requirements:

pip install -r requirements.txt

Data Preparation

Mobility networks

We follow the procedures of Chang et al., (2021) to derive the networks from SafeGraph COVID-19 Consortium. We provide the static and temporal mobility networks in the folder ./data/. Our code handles loading the network. For the raw data to generate the networks, we refer interested readers to the SafeGraph website to get access to the data.

Weighted graphs

We list the link for downloading these datasets and describe how to prepare data to run our code below.

  • Airport: download and place the data in ./data/social_networks/airport/.
  • Advogato: download and place the data in ./data/social_networks/advogato/.
  • Bitcoin: download and place the data in ./data/social_networks/bitcoin/.

If the data is placed in a different path, please change the path name in ./social/build_social_networks/. Our code handles loading the networks.

Usage

Mobility networks

Run the experiments inside the mobility path. Use run_simulation_static.py to run the experiments on static networks and run_simulation_temporal.py to run the experiments on time-varying networks.

In the script, use the --MSA argument to specify different mobility networks. Use --model to specify the epidemic models from seir, sir, and sis. Use the --strategy argument to run different strategies:

  • none for no intervention
  • uniform for uniform scaling
  • edge_weight for edge weighted reduction
  • capped for max occupancy capping
  • category for capping by POI category
  • edge_centrality_delete for K-EdgeDeletion
  • global for our Frank-Wolfe-EC algorithm

We provide scripts in ./mobility/scripts to replicate the experiments on mobility networks. For example, run the experiments on the New York mobility network as follows.

msa_name=NY
beta_base=0.0855188357042064
poi_psi=0.00293994466873546
p_zero=0.0001
budget=0.05

python run_simulation_static.py --MSA $msa_name --epochs 100 \
    --strategy global --budget $budget --top_k 1 \
    --lp_budget $budget --lp_components 42 --lp_epochs 7\
    --beta_base $beta_base \
    --poi_psi $poi_psi \
    --p_zero $p_zero

Weighted graphs

Please run the experiments inside the social path. We provide scripts in ./social/scripts/ to replicate the experiments:

  • run run_intervention_AIR.sh for the Airport network
  • run run_intervention_AD.sh for the Advogato network
  • run run_intervention_BI.sh for the Bitcoin network

Citation

If you find this repository useful or happen to use it in a research paper, please cite our work with the following bib information.

@article{li2023optimal,
  title={Optimal Intervention on Weighted Networks via Edge Centrality},
  author={Li, Dongyue and Eliassi-Rad, Tina and Zhang, Hongyang R},
  booktitle={SIAM International Conference on Data Mining},
  year={2023}
}

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