Liquid Interfaces: A Dynamic Ontology for the Interoperability of Autonomous Systems
This addresses interoperability challenges for autonomous systems, offering a novel approach to coordination, though it appears incremental in its application to existing agent-based systems.
The paper tackles the problem of static interfaces hindering integration of adaptive autonomous agents by introducing Liquid Interfaces, a coordination paradigm where interfaces emerge dynamically through runtime negotiation, and presents a formal model and protocol to demonstrate its feasibility.
Contemporary software architectures struggle to support autonomous agents whose reasoning is adaptive, probabilistic, and context-dependent, while system integration remains dominated by static interfaces and deterministic contracts. This paper introduces Liquid Interfaces, a coordination paradigm in which interfaces are not persistent technical artifacts, but ephemeral relational events that emerge through intention articulation and semantic negotiation at runtime.We formalize this model and present the Liquid Interface Protocol (LIP),which governs intention-driven interaction, negotiated execution, and enforce ephemerality under semantic uncertainty. We further discuss the governance implications of this approach and describe a reference architecture that demonstrates practical feasibility. Liquid Interfaces provide a principled foundation for adaptive coordination in agent-based systems