PrimeNet: a framework for commonsense knowledge representation and reasoning based on conceptual primitives
Commonsense knowledge acquisition and representation is a core topic in artificial intelligence (AI), which is crucial for building more sophisticated and human-like AI systems. However, existing commonsense knowledge bases organize facts in an isolated manner like bag of facts, lacking the cognitiv...
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sg-ntu-dr.10356-1812152024-11-18T02:16:31Z PrimeNet: a framework for commonsense knowledge representation and reasoning based on conceptual primitives Liu, Qian Han, Sooji Cambria, Erik Li, Yang Kwok, Kenneth College of Computing and Data Science Computer and Information Science Commonsense acquisition Knowledge representation and reasoning Commonsense knowledge acquisition and representation is a core topic in artificial intelligence (AI), which is crucial for building more sophisticated and human-like AI systems. However, existing commonsense knowledge bases organize facts in an isolated manner like bag of facts, lacking the cognitive-level connections that humans commonly possess. People have the ability to efficiently organize vast amounts of knowledge by linking or generalizing concepts using a limited set of conceptual primitives that serve as the fundamental building blocks of reasoning. These conceptual primitives are basic, foundational elements of thought that humans use to make sense of the world. By combining and recombining these primitives, people can construct complex ideas, solve problems, and understand new concepts. To emulate this cognitive mechanism, we design a new commonsense knowledge base, termed PrimeNet, organized in a three-layer structure: a small core of conceptual primitives (e.g., FOOD), a bigger set of concepts that connect to such primitives (e.g., fruit), and an even larger layer of entities connecting to the concepts (e.g., banana). First, we collect commonsense knowledge and employ a gradual expansion strategy for knowledge integration. After refinement, PrimeNet contains 6 million edges between 2 million nodes, with 34 different types of relations. Then, we design a new conceptualization method by leveraging a probabilistic taxonomy, to build the concept layer of PrimeNet. Finally, we conduct primitive detection to build the primitive layer, where a lexical substitution task is used to identify related concepts, and large language models are employed to generate a rational primitive to label each concept cluster as well as verify the primitive detection process. Agency for Science, Technology and Research (A*STAR) Ministry of Education (MOE) Nanyang Technological University This research is supported by the Agency for Science, Technology and Research (A*STAR) under its AME Programmatic Funding Scheme (Project #A18A2b0046). The project is also supported by the Ministry of Education, Singapore under its MOE Academic Research Fund Tier 2 (STEM RIE2025 Award MOE-T2EP20123-0005) and by the RIE2025 Industry Alignment Fund - Industry Collaboration Projects (IAF-ICP) (Award I2301E0026), administered by A*STAR, as well as supported by Alibaba Group and NTU Singapore. 2024-11-18T02:16:30Z 2024-11-18T02:16:30Z 2024 Journal Article Liu, Q., Han, S., Cambria, E., Li, Y. & Kwok, K. (2024). PrimeNet: a framework for commonsense knowledge representation and reasoning based on conceptual primitives. Cognitive Computation, 16(6), 3429-3456. https://dx.doi.org/10.1007/s12559-024-10345-6 1866-9956 https://hdl.handle.net/10356/181215 10.1007/s12559-024-10345-6 2-s2.0-85202700584 6 16 3429 3456 en A18A2b0046 MOE‐T2EP20123‐0005 I2301E0026 Cognitive Computation © 2024 The Author(s), under exclusive licence to Springer Science+Business Media, LLC, part of Springer Nature. All rights reserved. |
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Computer and Information Science Commonsense acquisition Knowledge representation and reasoning |
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Computer and Information Science Commonsense acquisition Knowledge representation and reasoning Liu, Qian Han, Sooji Cambria, Erik Li, Yang Kwok, Kenneth PrimeNet: a framework for commonsense knowledge representation and reasoning based on conceptual primitives |
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Commonsense knowledge acquisition and representation is a core topic in artificial intelligence (AI), which is crucial for building more sophisticated and human-like AI systems. However, existing commonsense knowledge bases organize facts in an isolated manner like bag of facts, lacking the cognitive-level connections that humans commonly possess. People have the ability to efficiently organize vast amounts of knowledge by linking or generalizing concepts using a limited set of conceptual primitives that serve as the fundamental building blocks of reasoning. These conceptual primitives are basic, foundational elements of thought that humans use to make sense of the world. By combining and recombining these primitives, people can construct complex ideas, solve problems, and understand new concepts. To emulate this cognitive mechanism, we design a new commonsense knowledge base, termed PrimeNet, organized in a three-layer structure: a small core of conceptual primitives (e.g., FOOD), a bigger set of concepts that connect to such primitives (e.g., fruit), and an even larger layer of entities connecting to the concepts (e.g., banana). First, we collect commonsense knowledge and employ a gradual expansion strategy for knowledge integration. After refinement, PrimeNet contains 6 million edges between 2 million nodes, with 34 different types of relations. Then, we design a new conceptualization method by leveraging a probabilistic taxonomy, to build the concept layer of PrimeNet. Finally, we conduct primitive detection to build the primitive layer, where a lexical substitution task is used to identify related concepts, and large language models are employed to generate a rational primitive to label each concept cluster as well as verify the primitive detection process. |
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College of Computing and Data Science |
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College of Computing and Data Science Liu, Qian Han, Sooji Cambria, Erik Li, Yang Kwok, Kenneth |
| format |
Article |
| author |
Liu, Qian Han, Sooji Cambria, Erik Li, Yang Kwok, Kenneth |
| author_sort |
Liu, Qian |
| title |
PrimeNet: a framework for commonsense knowledge representation and reasoning based on conceptual primitives |
| title_short |
PrimeNet: a framework for commonsense knowledge representation and reasoning based on conceptual primitives |
| title_full |
PrimeNet: a framework for commonsense knowledge representation and reasoning based on conceptual primitives |
| title_fullStr |
PrimeNet: a framework for commonsense knowledge representation and reasoning based on conceptual primitives |
| title_full_unstemmed |
PrimeNet: a framework for commonsense knowledge representation and reasoning based on conceptual primitives |
| title_sort |
primenet: a framework for commonsense knowledge representation and reasoning based on conceptual primitives |
| publishDate |
2024 |
| url |
https://hdl.handle.net/10356/181215 |
| _version_ |
1816859060911210496 |