ALMA
Cross-source consensus on ALMA from 1 sources and 4 claims.
1 sources · 4 claims
Risks & contraindications
Comparisons
Highlighted claims
- Compared with ALMA, BALM produced more interpretable overlapping motifs in the HCP application. — A Bayesian Adaptive Latent Mixture Model for Zero-Inflated Weighted Brain Connectome Analysis
- ALMA's orthogonality constraint can merge overlapping anatomical systems into composite components. — A Bayesian Adaptive Latent Mixture Model for Zero-Inflated Weighted Brain Connectome Analysis
- ALMA and tensor block models impose assumptions that can be restrictive for brain organisation. — A Bayesian Adaptive Latent Mixture Model for Zero-Inflated Weighted Brain Connectome Analysis
- ALMA performed best for near-discrete memberships in the first simulation. — A Bayesian Adaptive Latent Mixture Model for Zero-Inflated Weighted Brain Connectome Analysis