‘Scaling Up and Stabilizing Differentiable Planning with Implicit Differentiation’

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“Differentiable planning promises end-to-end differentiability and adaptivity. However, an issue prevents it from scaling up to larger-scale problems: they need to differentiate through forward iteration layers to compute gradients, which couples forward computation and backpropagation and needs to balance forward planner performance and computational cost of the backward pass. … We propose to differentiate through the Bellman fixed-point equation to decouple forward and backward passes for Value Iteration Network and its variants, which enables constant backward cost (in planning horizon) and flexible forward budget and helps scale up to large tasks.”

Find the paper and full list of authors at Open Review.

View on Site: ‘Scaling Up and Stabilizing Differentiable Planning with Implicit Differentiation’

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