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Semi-Implicit Stochastic Recurrent Neural Networks

Nick Duffield, Ehsan Hajiramezanali, Arman Hasanzadeh, Krishna Narayanan, Mingyuan Zhou, Xiaoning Qian

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    Length: 16:59
04 May 2020

Stochastic recurrent neural networks with latent random variables of complex dependency structures have shown to be more successful in modeling sequential data than deterministic deep models. However, the majority of existing methods have limited expressive power due to the Gaussian assumption of latent variables. In this paper, we advocate learning implicit latent representations using semi-implicit variational inference to further increase model flexibility. Semi-implicit stochastic recurrent neural network (SIS-RNN) is developed to enrich inferred model posteriors that may have no analytic density functions, as long as independent random samples can be generated via reparameterization. Extensive experiments in different tasks on real-world datasets show that SIS-RNN outperforms the existing methods.

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