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Thinking fast and slow in AI: A cognitive architecture to augment both AI and human reasoning

Francesca Rossi from IBM Search, tells that AI systems are very useful in practically every sector, but they also have several limitations, mostly related to the lack of reasoning capabilities. According to the fast and slow thinking theory of human decision making, we can say that data-driven AI, including generative AI, are providing fast thinking capabilities, but they do not have slow thinking ones. Existing cognitive theories of human decision making, such as the thinking fast and slow theory, can provide insights on how to advance AI systems towards some of these capabilities. In this talk I will present a general architecture, called SOFAI, that is based on fast/slow solvers and a metacognitive component that provides a centralized governance of the solvers. I will describe two instances of this architecture, for constrained grid navigation and planning, showing experimentally that SOFAI generates better decisions than each of the INDIVIDUAL solvers. Emerging behavior related to adaptability, skill learning, and cognitive control are also showed in the analysis of SOFAI’s behavior. I will also describe how the thinking fast and slow theory can help design a value-based human-machine collaborative decision environment

7770.mp4 7770.mp3

Universitat de Girona. Departament d’Informàtica, Matemàtica Aplicada i Estadística

Other contributions: Universitat de Girona. Departament d’Informàtica, Matemàtica Aplicada i Estadística
Author: Rossi, Francesca
Date: 2024 September 3
Abstract: Francesca Rossi from IBM Search, tells that AI systems are very useful in practically every sector, but they also have several limitations, mostly related to the lack of reasoning capabilities. According to the fast and slow thinking theory of human decision making, we can say that data-driven AI, including generative AI, are providing fast thinking capabilities, but they do not have slow thinking ones. Existing cognitive theories of human decision making, such as the thinking fast and slow theory, can provide insights on how to advance AI systems towards some of these capabilities. In this talk I will present a general architecture, called SOFAI, that is based on fast/slow solvers and a metacognitive component that provides a centralized governance of the solvers. I will describe two instances of this architecture, for constrained grid navigation and planning, showing experimentally that SOFAI generates better decisions than each of the INDIVIDUAL solvers. Emerging behavior related to adaptability, skill learning, and cognitive control are also showed in the analysis of SOFAI’s behavior. I will also describe how the thinking fast and slow theory can help design a value-based human-machine collaborative decision environment
7770.mp4 7770.mp3
Format: audio/mpeg
video/mp4
Document access: http://hdl.handle.net/10256.1/7770
Language: eng
Publisher: Universitat de Girona. Departament d’Informàtica, Matemàtica Aplicada i Estadística
Collection: 30th International Conference on Principles and Practice of Constraint Programming
Rights: Attribution-NonCommercial-ShareAlike 4.0 International
Rights URI: http://creativecommons.org/licenses/by-nc-sa/4.0/
Subject: Intel·ligència artificial -- Congressos
Artificial intelligence -- Congresses
Programació per restriccions (Informàtica) -- Congressos
Constraint programming (Computer science) -- Congresses
Title: Thinking fast and slow in AI: A cognitive architecture to augment both AI and human reasoning
Type: info:eu-repo/semantics/lecture
Repository: DUGiMedia

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