BiGraph is a Python package for Link prediction in bipartite networks.
- Bug reports: https://github.com/bi-graph/bigraph/issues
Node based similarities and Katz has been implemented. you can find algorithms in bigraph module. Algorithms implemented so far:
Number | Algorithm |
1 | jaccard |
2 | adamic adar |
3 | common neighbors |
4 | preferential attachment |
5 | katz similarity |
Predicting new links in a randomly generated graph using
Adamic-Adar
algorithm:
from bigraph.predict import aa_predict
from bigraph.preprocessing import import_files, make_graph
def adamic_adar_prediction():
"""
Link prediction on bipartite networks
:return: A dictionary containing predicted links
"""
df, df_nodes = import_files()
print(df)
print(f"Graph Nodes: ", df_nodes)
G = make_graph(df)
print(G)
predicted = aa_predict(G) # Here we have called Adamic Adar method from bigraph module
return predicted
# Executing the function
if __name__ == '__main__':
adamic_adar_prediction()
Evaluating Adamic-Adar
algorithm.
You can try other provided prediction algorithms by replacing the "aa" argument.
from bigraph.evaluation.evaluation import evaluate
from bigraph.preprocessing import import_files, make_graph
def adamic_adar_evaluation():
"""
Evaluate Adamic-Adar algorithm using 10-Fold cross-validation
:return: A dictionary containing the evaluation results
"""
df, df_nodes = import_files()
G = make_graph(df)
results = evaluate(G, k=10,
method='aa') # Here we have evaluated adamic-adar
# methods using evaluation module. Methods are 'jc', 'aa', 'pa', 'cn'
return results
# Executing the function
if __name__ == '__main__':
adamic_adar_evaluation()
The Bigraph project welcomes your expertise and enthusiasm!
Ways to contribute to Bigraph:
- Writing code
- Review pull requests
- Develop tutorials, presentations, and other educational materials
- Translate documentation and readme contents
If you happened to encounter any issue in the codes, please report it here. A better way is to fork the repository on Github and/or create a pull request.
Metrics that are calculated during evaluation:
Number | Evaluattion metrics |
1 | Precision |
2 | AUC |
3 | ROC |
4 | returns fpr* |
5 | returns tpr* |
- For further usages and calculating different metrics
Your dataset should be in the following format (Exclude the 'Row' column):
Row | left_side | right_side | Weight* |
1 | u0 |
v1 |
1 |
2 | u2 |
v1 |
1 |
3 | u1 |
v2 |
1 |
4 | u3 |
v3 |
1 |
5 | u4 |
v3 |
2 |
- Note that running
will create a sample graph for you and will place it in thefrom bigraph.preprocessing import import_files df, df_nodes = import_files()
inputs
directory.- Although the weight has not been involved in current version, but, the format will be the same.
Predicting new links in a randomly generated graph using following algorithms:
Preferential attachment
Jaccard similarity
Common neighbours
from bigraph.predict import pa_predict, jc_predict, cn_predict
from bigraph.preprocessing import import_files, make_graph
def main():
"""
Link prediction on bipartite networks
:return:
"""
df, df_nodes = import_files()
G = make_graph(df)
pa_predict(G) # Preferential attachment
jc_predict(G) # Jaccard coefficient
cn_predict(G) # Common neighbors
# Executing the function
if __name__ == '__main__':
main()
Number | Reference | Year |
1 | Yang, Y., Lichtenwalter, R.N. & Chawla, N.V. Evaluating link prediction methods. Knowl Inf Syst 45, 751–782 (2015). https://doi.org/10.1007/s10115-014-0789-0 |
2015 |
2 | Liben-nowell, David & Kleinberg, Jon. (2003). The Link Prediction Problem for Social Networks. Journal of the American Society for Information Science and Technology. https://doi.org/58.10.1002/asi.20591 |
2003 |
2 | ... |
... |
- Modulate the functions
- Add more algorithms
- Run on CUDA cores
- Make it faster using vectorization etc.
- Add more preprocessors
- Add dataset, graph, and dataframe manipulations
- Unify and reconstruct the architecture and eliminate redundancy
-
It can export the graph in .json and .gexf format for further usages. For instance: Gephi etc.
Released under the BSD license
Copyright © 2017-2021 BiGraph Developers Soran Ghadri ([email protected]) Taleb Zarhesh ([email protected])