Tracking as Online Decision-Making: Learning a Policy from Streaming Videos with Reinforcement Learning
July 17, 2017 Β· Declared Dead Β· π IEEE International Conference on Computer Vision
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Authors
James Steven Supancic, Deva Ramanan
arXiv ID
1707.04991
Category
cs.CV: Computer Vision
Citations
117
Venue
IEEE International Conference on Computer Vision
Last Checked
4 months ago
Abstract
We formulate tracking as an online decision-making process, where a tracking agent must follow an object despite ambiguous image frames and a limited computational budget. Crucially, the agent must decide where to look in the upcoming frames, when to reinitialize because it believes the target has been lost, and when to update its appearance model for the tracked object. Such decisions are typically made heuristically. Instead, we propose to learn an optimal decision-making policy by formulating tracking as a partially observable decision-making process (POMDP). We learn policies with deep reinforcement learning algorithms that need supervision (a reward signal) only when the track has gone awry. We demonstrate that sparse rewards allow us to quickly train on massive datasets, several orders of magnitude more than past work. Interestingly, by treating the data source of Internet videos as unlimited streams, we both learn and evaluate our trackers in a single, unified computational stream.
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