Modality-Agnostic Variational Compression of Implicit Neural Representations
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We introduce a modality-agnostic neural data compression algorithm based on a functional view of data and parameterised as an Implicit Neural Representation (INR). Bridging the gap between latent coding and sparsity, we obtain compact latent representations which are non-linearly mapped to a soft gating mechanism capable of specialising a shared INR base network to each data item through subnetwork selection. After obtaining a dataset of such compact latent representations, we directly optimise the rate/distortion trade-off in this modality-agnostic space using non-linear transform coding. We term this method Variational Compression of Implicit Neural Representation (VC-INR) and show both improved performance given the same representational capacity pre quantisation while also outperforming previous quantisation schemes used for other INR-based techniques. Our experiments demonstrate strong results over a large set of diverse data modalities using the same algorithm without any modality-specific inductive biases. We show results on images, climate data, 3D shapes and scenes as well as audio and video, introducing VC-INR as the first INR-based method to outperform codecs as well-known and diverse as JPEG 2000, MP3 and AVC/HEVC on their respective modalities.
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