State graph reasoning for multimodal conversational recommendation
Conversational recommendation system (CRS) attracts increasing attention in various application domains such as retail and travel. It offers an effective way to capture users’ dynamic preferences with multi-turn conversations. However, most current studies center on the recommendation aspect while o...
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sg-smu-ink.sis_research-85842022-12-12T08:06:57Z State graph reasoning for multimodal conversational recommendation WU, Yuxia LIAO, Lizi ZHANG, Gangyi LEI, Wenqiang ZHAO, Guoshuai QIAN, Xueming CHUA, Tat-Seng Conversational recommendation system (CRS) attracts increasing attention in various application domains such as retail and travel. It offers an effective way to capture users’ dynamic preferences with multi-turn conversations. However, most current studies center on the recommendation aspect while over-simplifying the conversation process. The negligence of complexity in data structure and conversation flow hinders their practicality and utility. In reality, there exist various relationships among slots and values, while users’ requirements may dynamically adjust or change. Moreover, the conversation often involves visual modality to facilitate the conversation. These actually call for a more advanced internal state representation of the dialogue and a proper reasoning scheme to guide the decision making process. In this paper, we explore multiple facets of multimodal conversational recommendation and try to address the above mentioned challenges. In particular, we represent the structured back-end database as a multimodal knowledge graph which captures the various relations and evidence in different modalities. The user preferences expressed via conversation utterances will then be gradually updated to the state graph with clear polarity. Based on these, we train an end-to-end State Graph-based Reasoning model (SGR) to perform reasoning over the whole state graph. The prediction of our proposed model benefits from the structure of the graph. It not only allows for zero-shot reasoning for items unseen in training conversations, but also provides a natural way to explain the policies. Extensive experiments show that our model achieves better performance compared with existing methods. 2022-03-01T08:00:00Z text application/pdf https://ink.library.smu.edu.sg/sis_research/7581 info:doi/10.1109/TMM.2022.3155900 https://ink.library.smu.edu.sg/context/sis_research/article/8584/viewcontent/State_Graph_Reasoning_for_Multimodal_Conversational_Recommendation.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 Recommendation systems conversation knowledge graph Artificial Intelligence and Robotics Graphics and Human Computer Interfaces |
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Recommendation systems conversation knowledge graph Artificial Intelligence and Robotics Graphics and Human Computer Interfaces WU, Yuxia LIAO, Lizi ZHANG, Gangyi LEI, Wenqiang ZHAO, Guoshuai QIAN, Xueming CHUA, Tat-Seng State graph reasoning for multimodal conversational recommendation |
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Conversational recommendation system (CRS) attracts increasing attention in various application domains such as retail and travel. It offers an effective way to capture users’ dynamic preferences with multi-turn conversations. However, most current studies center on the recommendation aspect while over-simplifying the conversation process. The negligence of complexity in data structure and conversation flow hinders their practicality and utility. In reality, there exist various relationships among slots and values, while users’ requirements may dynamically adjust or change. Moreover, the conversation often involves visual modality to facilitate the conversation. These actually call for a more advanced internal state representation of the dialogue and a proper reasoning scheme to guide the decision making process. In this paper, we explore multiple facets of multimodal conversational recommendation and try to address the above mentioned challenges. In particular, we represent the structured back-end database as a multimodal knowledge graph which captures the various relations and evidence in different modalities. The user preferences expressed via conversation utterances will then be gradually updated to the state graph with clear polarity. Based on these, we train an end-to-end State Graph-based Reasoning model (SGR) to perform reasoning over the whole state graph. The prediction of our proposed model benefits from the structure of the graph. It not only allows for zero-shot reasoning for items unseen in training conversations, but also provides a natural way to explain the policies. Extensive experiments show that our model achieves better performance compared with existing methods. |
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text |
author |
WU, Yuxia LIAO, Lizi ZHANG, Gangyi LEI, Wenqiang ZHAO, Guoshuai QIAN, Xueming CHUA, Tat-Seng |
author_facet |
WU, Yuxia LIAO, Lizi ZHANG, Gangyi LEI, Wenqiang ZHAO, Guoshuai QIAN, Xueming CHUA, Tat-Seng |
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WU, Yuxia |
title |
State graph reasoning for multimodal conversational recommendation |
title_short |
State graph reasoning for multimodal conversational recommendation |
title_full |
State graph reasoning for multimodal conversational recommendation |
title_fullStr |
State graph reasoning for multimodal conversational recommendation |
title_full_unstemmed |
State graph reasoning for multimodal conversational recommendation |
title_sort |
state graph reasoning for multimodal conversational recommendation |
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Institutional Knowledge at Singapore Management University |
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2022 |
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https://ink.library.smu.edu.sg/sis_research/7581 https://ink.library.smu.edu.sg/context/sis_research/article/8584/viewcontent/State_Graph_Reasoning_for_Multimodal_Conversational_Recommendation.pdf |
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