What question did this study set out to answer?

The main aim is to establish that balanced ternary is the minimal alphabet for representing directed transitions in an intrinsic state space.

March 1, 2026Open Access

Balanced Ternary by Necessity

Key Points

The main aim is to establish that balanced ternary is the minimal alphabet for representing directed transitions in an intrinsic state space.
Formalization of three constraints on candidate state space
Analysis of directed transitions under intrinsic conditions
Comparison of binary and balanced ternary sets
The binary set {0,1} fails due to reliance on extrinsic conventions for direction.
The balanced ternary set {-1,0,+1} is uniquely determined under the defined constraints.
Balanced ternary is additively symmetric and represents the fundamental structure of directed transitions.

Abstract

This paper proves a single structural result: if a directed temporal transition is to be represented intrinsically within an integer-valued state space; without relying on an external observer, label convention, or sign rule; then the minimal possible alphabet is necessarily balanced ternary. We formalise this as three constraints on any candidate state space: (i) a neutral ground state, (ii) the existence of a directed unit transition away from that ground state, and (iii) closure under the inverse transition for all states reachable from the ground state by a single step. Under these constraints, the binary set 0, 1 fails (direction becomes a matter of extrinsic convention), while the set S = -1, 0, +1 is uniquely forced (up to rescaling) and is additively symmetric. No physical interpretation is assumed or required. The paper isolates the minimal algebraic substrate for representing a first directed distinction; what this alphabet generates under further structural operations is left explicitly open.

Balanced Ternary by Necessity

Key Points

Abstract

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