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Scalable Bayesian inference of dendritic voltage via spatiotemporal recurrent state space models
Ruoxi Sun · Ian Kinsella · Scott Linderman · Liam Paninski
Recent advances in optical voltage sensors have brought us closer to a critical goal in cellular neuroscience: imaging the full spatiotemporal voltage on a dendritic tree. However, current sensors and imaging approaches still face significant limitations in SNR and sampling frequency; therefore statistical denoising and interpolation methods remain critical for understanding single-trial spatiotemporal dendritic voltage dynamics. Previous denoising approaches were either based on an inadequate linear voltage model or scaled poorly to large trees. Here we introduce a scalable fully Bayesian approach. We develop a generative nonlinear model that requires few parameters per compartment of the cell but is nonetheless flexible enough to sample realistic spatiotemporal data. The model captures different dynamics in each compartment and leverages biophysical knowledge to constrain intra- and inter-compartmental dynamics. We obtain a full posterior distribution over spatiotemporal voltage via an augmented Gibbs sampling algorithm. The nonlinear smoother model outperforms previously developed linear methods, and scales to much larger systems than previous methods based on sequential Monte Carlo approaches.
Author Information
Ruoxi Sun (Columbia University)
Ian Kinsella (Columbia University)
Scott Linderman (Columbia University)
Liam Paninski (Columbia University)
Related Events (a corresponding poster, oral, or spotlight)
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2019 Poster: Scalable Bayesian inference of dendritic voltage via spatiotemporal recurrent state space models »
Wed. Dec 11th 06:45 -- 08:45 PM Room East Exhibition Hall B + C #147
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