Semiparametric spectral modeling of the Drosophila connectome

Albert Cardona; Avanti Athreya; Ben Cocanougher; Carey E. Priebe; Joshua T. Vogelstein; Katharina Eichler; Marta Zlatic; Minh Tang; Vince Lyzinski; Yichen Qin

arxiv: 1705.03297 · v1 · pith:5T4R5P6Znew · submitted 2017-05-09 · 📊 stat.ML

Semiparametric spectral modeling of the Drosophila connectome

Carey E. Priebe , Youngser Park , Minh Tang , Avanti Athreya , Vince Lyzinski , Joshua T. Vogelstein , Yichen Qin , Ben Cocanougher

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Katharina Eichler Marta Zlatic Albert Cardona

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keywords connectomemodelingsemiparametriclatentmodelspectraldrosophilanetwork

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We present semiparametric spectral modeling of the complete larval Drosophila mushroom body connectome. Motivated by a thorough exploratory data analysis of the network via Gaussian mixture modeling (GMM) in the adjacency spectral embedding (ASE) representation space, we introduce the latent structure model (LSM) for network modeling and inference. LSM is a generalization of the stochastic block model (SBM) and a special case of the random dot product graph (RDPG) latent position model, and is amenable to semiparametric GMM in the ASE representation space. The resulting connectome code derived via semiparametric GMM composed with ASE captures latent connectome structure and elucidates biologically relevant neuronal properties.

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