This preprint presents a conceptual architecture for an autonomous modular habitat designed to operate with minimal external infrastructure. The proposed system integrates renewable energy harvesting, atmospheric water generation, environmental stabilization, and self-maintaining material surfaces. The habitat architecture is based on a modular hexagonal structure inspired by natural honeycomb geometries, enabling structural efficiency, scalability, and distributed environmental control. The system combines solar energy collection, autonomous environmental regulation, integrated water systems, and self-cleaning surface technologies. The concept aims to demonstrate a framework for self-sustaining living environments capable of supporting human habitation while reducing dependency on centralized infrastructure. This document provides a high-level conceptual overview while intentionally omitting detailed engineering specifications. Potential applications include off-grid living environments, experimental sustainable architecture, remote habitats, and resilient autonomous living systems.
Thị Mỹ Dung Võ (Sun,) studied this question.
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