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Main Authors: Sun, Mingyang, Hong, Feng, Zhang, Weinan
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2512.18202
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author Sun, Mingyang
Hong, Feng
Zhang, Weinan
author_facet Sun, Mingyang
Hong, Feng
Zhang, Weinan
contents The development of LLMs has elevated AI agents from task-specific tools to long-lived, decision-making entities. Yet, most architectures remain static and reactive, tethered to manually defined, narrow scenarios. These systems excel at perception (System 1) and deliberation (System 2) but lack a persistent meta-layer to maintain identity, verify reasoning, and align short-term actions with long-term survival. We first propose a third stratum, System 3, that presides over the agent's narrative identity and long-horizon adaptation. The framework maps selected psychological constructs to concrete computational modules, thereby translating abstract notions of artificial life into implementable design requirements. The ideas coalesce in Sophia, a "Persistent Agent" wrapper that grafts a continuous self-improvement loop onto any LLM-centric System 1/2 stack. Sophia is driven by four synergistic mechanisms: process-supervised thought search, narrative memory, user and self modeling, and a hybrid reward system. Together, they transform repetitive reasoning into a self-driven, autobiographical process, enabling identity continuity and transparent behavioral explanations. Although the paper is primarily conceptual, we provide a compact engineering prototype to anchor the discussion. Quantitatively, Sophia independently initiates and executes various intrinsic tasks while achieving an 80% reduction in reasoning steps for recurring operations. Notably, meta-cognitive persistence yielded a 40% gain in success for high-complexity tasks, effectively bridging the performance gap between simple and sophisticated goals. Qualitatively, System 3 exhibited a coherent narrative identity and an innate capacity for task organization. By fusing psychological insight with a lightweight reinforcement-learning core, the persistent agent architecture advances a possible practical pathway toward artificial life.
format Preprint
id arxiv_https___arxiv_org_abs_2512_18202
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Sophia: A Persistent Agent Framework of Artificial Life
Sun, Mingyang
Hong, Feng
Zhang, Weinan
Artificial Intelligence
The development of LLMs has elevated AI agents from task-specific tools to long-lived, decision-making entities. Yet, most architectures remain static and reactive, tethered to manually defined, narrow scenarios. These systems excel at perception (System 1) and deliberation (System 2) but lack a persistent meta-layer to maintain identity, verify reasoning, and align short-term actions with long-term survival. We first propose a third stratum, System 3, that presides over the agent's narrative identity and long-horizon adaptation. The framework maps selected psychological constructs to concrete computational modules, thereby translating abstract notions of artificial life into implementable design requirements. The ideas coalesce in Sophia, a "Persistent Agent" wrapper that grafts a continuous self-improvement loop onto any LLM-centric System 1/2 stack. Sophia is driven by four synergistic mechanisms: process-supervised thought search, narrative memory, user and self modeling, and a hybrid reward system. Together, they transform repetitive reasoning into a self-driven, autobiographical process, enabling identity continuity and transparent behavioral explanations. Although the paper is primarily conceptual, we provide a compact engineering prototype to anchor the discussion. Quantitatively, Sophia independently initiates and executes various intrinsic tasks while achieving an 80% reduction in reasoning steps for recurring operations. Notably, meta-cognitive persistence yielded a 40% gain in success for high-complexity tasks, effectively bridging the performance gap between simple and sophisticated goals. Qualitatively, System 3 exhibited a coherent narrative identity and an innate capacity for task organization. By fusing psychological insight with a lightweight reinforcement-learning core, the persistent agent architecture advances a possible practical pathway toward artificial life.
title Sophia: A Persistent Agent Framework of Artificial Life
topic Artificial Intelligence
url https://arxiv.org/abs/2512.18202