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A scalable approach for continuous time Markov models with covariates.

Farhad HatamiAlex OcampoGordon GrahamThomas E NicholsHabib Ganjgahi
Published in: Biostatistics (Oxford, England) (2023)
Existing methods for fitting continuous time Markov models (CTMM) in the presence of covariates suffer from scalability issues due to high computational cost of matrix exponentials calculated for each observation. In this article, we propose an optimization technique for CTMM which uses a stochastic gradient descent algorithm combined with differentiation of the matrix exponential using a Padé approximation. This approach makes fitting large scale data feasible. We present two methods for computing standard errors, one novel approach using the Padé expansion and the other using power series expansion of the matrix exponential. Through simulations, we find improved performance relative to existing CTMM methods, and we demonstrate the method on the large-scale multiple sclerosis NO.MS data set.
Keyphrases
  • multiple sclerosis
  • electronic health record
  • big data
  • machine learning
  • mass spectrometry
  • deep learning
  • emergency department
  • patient safety
  • neural network
  • monte carlo