Explainable and argumentation-based decision making with qualitative preferences for diagnostics and prognostics of Alzheimer's Disease
Argumentation has gained traction as a formalism to make more transparent decisions and provide formal explanations recently. In this paper, we present an argumentation-based approach to decision making that can support modelling and automated reasoning about complex qualitative preferences and offe...
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sg-ntu-dr.10356-1487102021-05-28T03:10:15Z Explainable and argumentation-based decision making with qualitative preferences for diagnostics and prognostics of Alzheimer's Disease Zeng, Zhiwei Shen, Zhiqi Tan, Benny Toh Hsiang Chin, Jing Jih Leung, Cyril Wang, Yu Chi, Ying Miao, Chunyan School of Computer Science and Engineering International Conference on Principles of Knowledge Representation and Reasoning (KR'20) Joint NTU-UBC Research Centre of Excellence in Active Living for the Elderly (LILY) Engineering Development Deployment Argumentation has gained traction as a formalism to make more transparent decisions and provide formal explanations recently. In this paper, we present an argumentation-based approach to decision making that can support modelling and automated reasoning about complex qualitative preferences and offer dialogical explanations for the decisions made. We first propose Qualitative Preference Decision Frameworks (QPDFs). In a QPDF, we use contextual priority to represent the relative importance of combinations of goals in different contexts and define associated strategies for deriving decision preferences based on prioritized goal combinations. To automate the decision computation, we map QPDFs to Assumption-based Argumentation (ABA) frameworks so that we can utilize existing ABA argumentative engines for our implementation. We implemented our approach for two tasks, diagnostics and prognostics of Alzheimer's Disease (AD), and evaluated it with real-world datasets. For each task, one of our models achieves the highest accuracy and good precision and recall for all classes compared to common machine learning models. Moreover, we study how to formalize argumentation dialogues that give contrastive, focused and selected explanations for the most preferred decisions selected in given contexts. AI Singapore Accepted version 2021-05-28T03:07:23Z 2021-05-28T03:07:23Z 2020 Conference Paper Zeng, Z., Shen, Z., Tan, B. T. H., Chin, J. J., Leung, C., Wang, Y., Chi, Y. & Miao, C. (2020). Explainable and argumentation-based decision making with qualitative preferences for diagnostics and prognostics of Alzheimer's Disease. International Conference on Principles of Knowledge Representation and Reasoning (KR'20), 816-826. https://dx.doi.org/10.24963/kr.2020/84 978-0-9992411-7-2 https://hdl.handle.net/10356/148710 10.24963/kr.2020/84 816 826 en © 2020 International Joint Conferences on Artificial Intelligence Organization. All rights reserved. This paper was published in International Conference on Principles of Knowledge Representation and Reasoning (KR'20) and is made available with permission of International Joint Conferences on Artificial Intelligence Organization application/pdf |
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Engineering Development Deployment Zeng, Zhiwei Shen, Zhiqi Tan, Benny Toh Hsiang Chin, Jing Jih Leung, Cyril Wang, Yu Chi, Ying Miao, Chunyan Explainable and argumentation-based decision making with qualitative preferences for diagnostics and prognostics of Alzheimer's Disease |
| description |
Argumentation has gained traction as a formalism to make more transparent decisions and provide formal explanations recently. In this paper, we present an argumentation-based approach to decision making that can support modelling and automated reasoning about complex qualitative preferences and offer dialogical explanations for the decisions made. We first propose Qualitative Preference Decision Frameworks (QPDFs). In a QPDF, we use contextual priority to represent the relative importance of combinations of goals in different contexts and define associated strategies for deriving decision preferences based on prioritized goal combinations. To automate the decision computation, we map QPDFs to Assumption-based Argumentation (ABA) frameworks so that we can utilize existing ABA argumentative engines for our implementation. We implemented our approach for two tasks, diagnostics and prognostics of Alzheimer's Disease (AD), and evaluated it with real-world datasets. For each task, one of our models achieves the highest accuracy and good precision and recall for all classes compared to common machine learning models. Moreover, we study how to formalize argumentation dialogues that give contrastive, focused and selected explanations for the most preferred decisions selected in given contexts. |
| author2 |
School of Computer Science and Engineering |
| author_facet |
School of Computer Science and Engineering Zeng, Zhiwei Shen, Zhiqi Tan, Benny Toh Hsiang Chin, Jing Jih Leung, Cyril Wang, Yu Chi, Ying Miao, Chunyan |
| format |
Conference or Workshop Item |
| author |
Zeng, Zhiwei Shen, Zhiqi Tan, Benny Toh Hsiang Chin, Jing Jih Leung, Cyril Wang, Yu Chi, Ying Miao, Chunyan |
| author_sort |
Zeng, Zhiwei |
| title |
Explainable and argumentation-based decision making with qualitative preferences for diagnostics and prognostics of Alzheimer's Disease |
| title_short |
Explainable and argumentation-based decision making with qualitative preferences for diagnostics and prognostics of Alzheimer's Disease |
| title_full |
Explainable and argumentation-based decision making with qualitative preferences for diagnostics and prognostics of Alzheimer's Disease |
| title_fullStr |
Explainable and argumentation-based decision making with qualitative preferences for diagnostics and prognostics of Alzheimer's Disease |
| title_full_unstemmed |
Explainable and argumentation-based decision making with qualitative preferences for diagnostics and prognostics of Alzheimer's Disease |
| title_sort |
explainable and argumentation-based decision making with qualitative preferences for diagnostics and prognostics of alzheimer's disease |
| publishDate |
2021 |
| url |
https://hdl.handle.net/10356/148710 |
| _version_ |
1701270562447294464 |