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Paper detail

Amortised Likelihood-free Inference for Expensive Time-series Simulators with Signatured Ratio Estimation

Simulation models of complex dynamics in the natural and social sciences commonly lack a tractable likelihood function, rendering traditional likelihood-based statistical inference impossible. Recent advances in machine learning have introduced novel algorithms for estimating otherwise intractable likelihood functions using a likelihood ratio trick based on binary classifiers. Consequently, efficient likelihood approximations can be obtained whenever good probabilistic classifiers can be constructed. We propose a kernel classifier for sequential data using path signatures based on the recently introduced signature kernel. We demonstrate that the representative power of signatures yields a highly performant classifier, even in the crucially important case where sample numbers are low. In such scenarios, our approach can outperform sophisticated neural networks for common posterior inference tasks.

preprint2022arXivOpen access
Joel DyerPatrick CannonSebastian M Schmon
MethodologyComputationMachine Learning
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Joel DyerPatrick CannonSebastian M Schmon

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