Implementing Self Models Through Joint-Embedding Predictive Architecture

Proceedings of the Annual Meeting of the Cognitive Science Society 46:5685-5692 (2024)
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Abstract

Self models contribute to key functional domains of human intelligence that are not yet presented in today’s artificial intelligence. One important aspect of human problem-solving involves the use of conceptual self-knowledge to detect self-relevant information presented in the environment, which guides the subsequent retrieval of autobiographical memories that are relevant to the task at hand. This process enables each human to behave self-consistently in our own way across complex situations, manifested as self-interest and trait-like characteristics. In this paper, we outline a computational framework that implements the conceptual aspect of human self models through a modified version of the joint-embedding predictive architecture. We propose that through the incorporation of human-like autobiographical memory retrieval and self-importance evaluation, the modified architecture could support machine agents with significantly enhanced self-consistency, which could be applied to deliver more believable simulations of human behaviors.

Author Profiles

Dezhi Luo
University of Michigan, Ann Arbor
Yuyue Jiang
University of California, Santa Barbara

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