Temporal Modulation Network for Controllable Space-Time Video Super-Resolution
This work addresses the need for flexible and accurate video enhancement in applications like video editing and streaming, representing an incremental improvement over existing deformable convolution methods.
The paper tackles the problem of space-time video super-resolution by proposing a Temporal Modulation Network (TMNet) that enables controllable interpolation of arbitrary intermediate frames with high-resolution reconstruction, achieving superior performance on three benchmark datasets.
Space-time video super-resolution (STVSR) aims to increase the spatial and temporal resolutions of low-resolution and low-frame-rate videos. Recently, deformable convolution based methods have achieved promising STVSR performance, but they could only infer the intermediate frame pre-defined in the training stage. Besides, these methods undervalued the short-term motion cues among adjacent frames. In this paper, we propose a Temporal Modulation Network (TMNet) to interpolate arbitrary intermediate frame(s) with accurate high-resolution reconstruction. Specifically, we propose a Temporal Modulation Block (TMB) to modulate deformable convolution kernels for controllable feature interpolation. To well exploit the temporal information, we propose a Locally-temporal Feature Comparison (LFC) module, along with the Bi-directional Deformable ConvLSTM, to extract short-term and long-term motion cues in videos. Experiments on three benchmark datasets demonstrate that our TMNet outperforms previous STVSR methods. The code is available at https://github.com/CS-GangXu/TMNet.