We introduce a general-purpose conditioning method for neural networks called FiLM: Feature-wise Linear Modulation. FiLM layers influence neural network computation via a simple, feature-wise affine transformation based on conditioning information. We show that FiLM layers are highly effective for visual reasoning - answering image-related questions which require a multi-step, high-level process - a task which has proven difficult for standard deep learning methods that do not explicitly model reasoning. Specifically, we show on visual reasoning tasks that FiLM layers 1) halve state-of-the-art error for the CLEVR benchmark, 2) modulate features in a coherent manner, 3) are robust to ablations and architectural modifications, and 4) generalize well to challenging, new data from few examples or even zero-shot.
FiLM: Visual Reasoning with a General Conditioning Layer
Feature-wise Linear Modulation (FiLM) improves visual reasoning tasks by using conditioned affine transformations to modulate features, achieving state-of-the-art results.
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- 2017
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- arXiv 2017
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- 5
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- arxiv.org/abs/1709.07871v2ARXIV-DEFAULT
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