Bio-Inspired Hormonal Modulation and Adaptive Orchestration in S-AI-GPT

Volume 16, Number 4

Bio-Inspired Hormonal Modulation and Adaptive Orchestration in S-AI-GPT

Authors

Said Slaoui, University Mohammed V, Morocco

Abstract

This second article delves into the bio-inspired regulatory mechanisms and memory architectures integrated into the S-AI-GPT system. Building upon the modular design introduced in Article 1, we explore how artificial hormonal signaling enables dynamic orchestration of agents and emotional coherence. The system relies on a triadic hormonal regulation layer composed of the Hormonal Engine, the GPT-Gland Agents, and the GPT-MemoryGland, working in concert to adjust activation thresholds, modulate emotional tone, and support context-aware responsiveness. A dedicated section addresses the integration of memory components, including Dynamic Contextual Memory (DCM), the Memory Agent for personalization, and a bio-inspired memory system based on neuronal mini-structures and artificial engrams. These memory structures interact strategically with hormonal dynamics to maintain both adaptability and persistence. We also examine the autonomy, lifecycle, and coordination of GPTSpecialized Agents across conversational and business contexts. The orchestrator, GPT-MetaAgent, supervises the entire system by integrating semantic cues, user profiles, and hormonal feedback. This approach paves the way for a resource-efficient, interpretable, and cognitively enriched conversational AI.

Keywords

Sparse Artificial Intelligence, GPT-MetaAgent, GPT-Specialized Agents, GPT-Gland Agents, Hormonal Engine.