Reinforcement learning enhanced PicHunter for interactive search
With the tremendous increase in video data size, search performance could be impacted significantly. Specifically, in an interactive system, a real-time system allows a user to browse, search and refine a query. Without a speedy system quickly, the main ingredient to engage a user to stay focused, a...
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2023
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sg-smu-ink.sis_research-88222023-08-04T02:10:16Z Reinforcement learning enhanced PicHunter for interactive search MA, Zhixin WU, Jiaxin LOO, Weixiong NGO, Chong-wah With the tremendous increase in video data size, search performance could be impacted significantly. Specifically, in an interactive system, a real-time system allows a user to browse, search and refine a query. Without a speedy system quickly, the main ingredient to engage a user to stay focused, an interactive system becomes less effective even with a sophisticated deep learning system. This paper addresses this challenge by leveraging approximate search, Bayesian inference, and reinforcement learning. For approximate search, we apply a hierarchical navigable small world, which is an efficient approximate nearest neighbor search algorithm. To quickly prune the search scope, we integrate PicHunter, one of the most popular engines in Video Browser Showdown, with reinforcement learning. The integration enhances PicHunter with the ability of systematic planning. Specifically, PicHunter performs a Bayesian update with a greedy strategy to select a small number of candidates for display. With reinforcement learning, the greedy strategy is replaced with a policy network that learns to select candidates that will result in the minimum number of user iterations, which is analytically defined by a reward function. With these improvements, the interactive system only searches a subset of video datasets relevant to a query while being able to quickly perform Bayesian updates with systematic planning to recommend the most probable candidates that can potentially lead to minimum iteration rounds. 2023-01-01T08:00:00Z text application/pdf https://ink.library.smu.edu.sg/sis_research/7819 info:doi/10.1007/978-3-031-27077-2_60 https://ink.library.smu.edu.sg/context/sis_research/article/8822/viewcontent/MMM_23___Reinforcement_Learning_Enhanced_PicHunter_for_Interactive_Search.pdf http://creativecommons.org/licenses/by-nc-nd/4.0/ Research Collection School Of Computing and Information Systems eng Institutional Knowledge at Singapore Management University Reinforcement learning Bayesian method Relevance feedback Interactive video retrieval Artificial Intelligence and Robotics Graphics and Human Computer Interfaces |
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Reinforcement learning Bayesian method Relevance feedback Interactive video retrieval Artificial Intelligence and Robotics Graphics and Human Computer Interfaces |
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Reinforcement learning Bayesian method Relevance feedback Interactive video retrieval Artificial Intelligence and Robotics Graphics and Human Computer Interfaces MA, Zhixin WU, Jiaxin LOO, Weixiong NGO, Chong-wah Reinforcement learning enhanced PicHunter for interactive search |
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With the tremendous increase in video data size, search performance could be impacted significantly. Specifically, in an interactive system, a real-time system allows a user to browse, search and refine a query. Without a speedy system quickly, the main ingredient to engage a user to stay focused, an interactive system becomes less effective even with a sophisticated deep learning system. This paper addresses this challenge by leveraging approximate search, Bayesian inference, and reinforcement learning. For approximate search, we apply a hierarchical navigable small world, which is an efficient approximate nearest neighbor search algorithm. To quickly prune the search scope, we integrate PicHunter, one of the most popular engines in Video Browser Showdown, with reinforcement learning. The integration enhances PicHunter with the ability of systematic planning. Specifically, PicHunter performs a Bayesian update with a greedy strategy to select a small number of candidates for display. With reinforcement learning, the greedy strategy is replaced with a policy network that learns to select candidates that will result in the minimum number of user iterations, which is analytically defined by a reward function. With these improvements, the interactive system only searches a subset of video datasets relevant to a query while being able to quickly perform Bayesian updates with systematic planning to recommend the most probable candidates that can potentially lead to minimum iteration rounds. |
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text |
| author |
MA, Zhixin WU, Jiaxin LOO, Weixiong NGO, Chong-wah |
| author_facet |
MA, Zhixin WU, Jiaxin LOO, Weixiong NGO, Chong-wah |
| author_sort |
MA, Zhixin |
| title |
Reinforcement learning enhanced PicHunter for interactive search |
| title_short |
Reinforcement learning enhanced PicHunter for interactive search |
| title_full |
Reinforcement learning enhanced PicHunter for interactive search |
| title_fullStr |
Reinforcement learning enhanced PicHunter for interactive search |
| title_full_unstemmed |
Reinforcement learning enhanced PicHunter for interactive search |
| title_sort |
reinforcement learning enhanced pichunter for interactive search |
| publisher |
Institutional Knowledge at Singapore Management University |
| publishDate |
2023 |
| url |
https://ink.library.smu.edu.sg/sis_research/7819 https://ink.library.smu.edu.sg/context/sis_research/article/8822/viewcontent/MMM_23___Reinforcement_Learning_Enhanced_PicHunter_for_Interactive_Search.pdf |
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