cdlib.algorithms.mnmf¶
-
mnmf
(g_original: object, dimensions: int = 128, clusters: int = 10, lambd: float = 0.2, alpha: float = 0.05, beta: float = 0.05, iterations: int = 200, lower_control: float = 1e-15, eta: float = 5.0) → cdlib.classes.node_clustering.NodeClustering¶ The procedure uses joint non-negative matrix factorization with modularity based regul;arization in order to learn a cluster memmbership distribution over nodes. The method can be used in an overlapping and non-overlapping way.
Parameters: - g_original – a networkx/igraph object
- dimensions – Number of dimensions. Default is 128.
- clusters – Number of clusters. Default is 10.
- lambd – KKT penalty. Default is 0.2
- alpha – Clustering penalty. Default is 0.05.
- beta – Modularity regularization penalty. Default is 0.05.
- iterations – Number of power iterations. Default is 200.
- lower_control – Floating point overflow control. Default is 10**-15.
- eta – Similarity mixing parameter. Default is 5.0.
Returns: NodeClustering object
Example: >>> from cdlib import algorithms >>> import networkx as nx >>> G = nx.karate_club_graph() >>> coms = algorithms.mnmf(G)
References: Wang, Xiao, et al. “Community preserving network embedding.” Thirty-first AAAI conference on artificial intelligence. 2017.
Note
Reference implementation: https://karateclub.readthedocs.io/