Network Diffusion is a package for simulating spreading phenomena.
Project description
Network Diffusion - spreading models in networks
This Python library provides a versatile toolkit for simulating diffusion processes in complex networks. It offers support for various types of models, including temporal models, multilayer models, and combinations of both.
A Short Example
import network_diffusion as nd
# define the model with its internal parameters
spreading_model = nd.models.MICModel(
seeding_budget=[90, 10, 0], # 95% act suspected, 10% infected, 0% recovered
seed_selector=nd.seeding.RandomSeedSelector(), # pick infected act randomly
protocol="OR", # how to aggregate impulses from the network's layers
probability=0.5, # probability of infection
)
# get the graph - a medium for spreading
network = nd.mln.functions.get_toy_network_piotr()
# perform the simulation that lasts four epochs
simulator = nd.Simulator(model=spreading_model, network=network)
logs = simulator.perform_propagation(n_epochs=3)
# obtain detailed logs for each actor in the form of JSON
raw_logs_json = logs.get_detailed_logs()
# or obtain aggregated logs for each of the network's layer
aggregated_logs_json = logs.get_aggragated_logs()
# or just save a summary of the experiment with all the experiment's details
logs.report(visualisation=True, path="my_experiment")
Key Features
-
Complex Network Simulation: The library enables users to simulate diffusion processes in complex networks with ease. Whether you are studying information spread, disease propagation, or any other diffusion phenomena, this library has you covered.
-
Temporal Models: You can work with temporal models, allowing you to capture the dynamics of processes over time. These temporal models can be created using regular time windows or leverage CogSnet.
-
Multilayer Networks: The library supports multilayer networks, which are essential for modelling real-world systems with interconnected layers of complexity.
-
Predefined Models: You have the option to use predefined diffusion models such as the Linear Threshold Model, Independent Cascade Model, and more. These models simplify the simulation process, allowing you to focus on your specific research questions.
-
Custom Models: Additionally, Network Diffusion allows you to define your own diffusion models using open interfaces, providing flexibility for researchers to tailor simulations to their unique requirements.
-
Centrality Measures: The library provides a wide range of centrality measures specifically designed for multilayer networks. These measures can be valuable for selecting influential seed nodes in diffusion processes.
-
NetworkX Compatible: Last but not least, the package is built on top of NetworkX, ensuring seamless compatibility with this popular Python library for network analysis. You can easily integrate it into your existing NetworkX-based workflows.
Package installation
To install the package, run this command: pip install network_diffusion
.
Please note that we currently support Linux, MacOS, and Windows, but the
package is mostly tested and developed on Unix-based systems.
To contribute, please clone the repo, switch to a new feature branch, and install the environment:
conda env create -f requirements/environment.yml
conda activate network-diffusion
pip install -e .
Documentation
Reference guide is available here!
Please bear in mind that this project is still in development, so the API
usually differs between versions. Nonetheless, the code is documented well, so
we encourage users to explore the repository. Another way to familiarise
yourself with the operating principles of network_diffusion
are projects
which utilise it:
- Generator of a dataset with actors' spreading potentials - v0.14.2 - repo
- Influence max. under LTM in multilayer networks - v0.14.0 pre-release - repo
- Comparison of spreading in various temporal network models - v0.13.0 - repo
- Seed selection methods for ICM in multilayer networks - v0.10.0 - repo
- Modelling coexisting spreading phenomena - v0.6 - repo
Citing us
If you used the package, please consider citing us:
@article{czuba2024networkdiffusion,
title={Network Diffusion – Framework to Simulate Spreading Processes in Complex Networks},
author={
Czuba, Micha{\l} and Nurek, Mateusz and Serwata, Damian and Qi, Yu-Xuan
and Jia, Mingshan and Musial, Katarzyna and Michalski, Rados{\l}aw
and Br{\'o}dka, Piotr
},
journal={Big Data Mining And Analytics},
volume={},
number={},
pages={1-13},
year={2024},
publisher={IEEE},
doi = {10.26599/BDMA.2024.9020010},
url={https://doi.org/10.26599/BDMA.2024.9020010},
}
Particularly if you used the functionality of simulating coexisting phenomena in complex networks, please add the following reference:
@inproceedings{czuba2022coexisting,
author={Czuba, Micha\l{} and Br\'{o}dka, Piotr},
booktitle={9th International Conference on Data Science and Advanced Analytics (DSAA)},
title={Simulating Spreading of Multiple Interacting Processes in Complex Networks},
volume={},
number={},
pages={1-10},
year={2022},
month={oct},
publisher={IEEE},
address={Shenzhen, China},
doi={10.1109/DSAA54385.2022.10032425},
url={https://ieeexplore.ieee.org/abstract/document/10032425},
}
Reporting bugs
Please report bugs on this board or by sending a direct e-mail to the main author.
About us
This library is developed and maintained by Network Science Lab from WUST (Wrocław, Lower Silesia, Poland) and external partners. For more information and updates, please visit our website or our GitHub for more projects.
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