Spacetimes with Semantics (II), Scaling of agency, semantics, and tenancy

TL;DR

This paper uses Promise Theory to define scalable agency and semantics in spacetimes, illustrating how space can be shared and dynamically structured through hierarchical scaling and occupancy concepts.

Contribution

It introduces a scalable framework for agency and semantics in spacetimes using Promise Theory, including methods for sharing space and building continuous structures from discrete elements.

Findings

Agency can be scaled dynamically and semantically through hierarchical grouping.

Shared space can be achieved via remote association and local encapsulation.

Discrete space elements can form quasi-continuous lattices.

Abstract

Using Promise Theory as a calculus, I review how to define agency in a scalable way, for the purpose of understanding semantic spacetimes. By following simple scaling rules, replacing individual agents with `super-agents' (sub-spaces), it is shown how agency can be scaled both dynamically and semantically. The notion of occupancy and tenancy, or how space is used and filled in different ways, is also defined, showing how spacetime can be shared between independent parties, both by remote association and local encapsulation. I describe how to build up dynamic and semantic continuity, by joining discrete individual atoms and molecules of space into quasi-continuous lattices.