Positive Instantial Neighbourhood logic
Pith reviewed 2026-06-27 19:20 UTC · model grok-4.3
The pith
Positive instantial neighbourhood logic is complete over persistent two-sided neighbourhood models via a typed auxiliary semantics and admits a canonical bitopological representation.
A machine-rendered reading of the paper's core claim, the machinery that carries it, and where it could break.
Core claim
PINL is complete with respect to persistent two-sided neighbourhood models because the typed persistent neighbourhood semantics delivers the required truth lemma, algebraic soundness and completeness hold via the Lindenbaum 2-DLIO, and the algebra of admissible positive opens in the constructed canonical bitopological PINL-space is isomorphic to that Lindenbaum algebra.
What carries the argument
Typed persistent neighbourhood semantics on persistent two-sided neighbourhood models, used to control witness and co-witness conditions and thereby obtain the truth lemma.
If this is right
- Every consistent PINL theory corresponds to a persistent two-sided neighbourhood model in which it is satisfied.
- The Lindenbaum 2-DLIO supplies a canonical algebraic model for any consistent set of PINL formulas.
- The admissible positive opens of the canonical bitopological PINL-space provide a concrete topological model isomorphic to the Lindenbaum algebra.
- The representation supplies the first concrete step toward a duality theory linking the logic to bitopological spaces.
Where Pith is reading between the lines
- The bitopological representation could be used to transfer separation or compactness properties from topology back into logical completeness or finite model properties.
- Similar typed auxiliary semantics might be adapted to obtain completeness for other negation-free neighbourhood or modal logics that lack classical negation.
- If the canonical spaces admit finite approximations, the representation might yield decision procedures for PINL satisfiability.
Load-bearing premise
The typed persistent neighbourhood semantics controls witness and co-witness conditions sufficiently to deliver the truth lemma for the persistent two-sided neighbourhood models.
What would settle it
A PINL formula that holds in every persistent two-sided neighbourhood model yet fails to be derivable in the PINL proof system, or a failure of the stated isomorphism between the Lindenbaum 2-DLIO and the algebra of admissible positive opens of the canonical bitopological PINL-space.
read the original abstract
Instantial neighbourhood logic is a modal language for neighbourhood frames in which formulas can express information about the kinds of worlds occurring inside a neighbourhood of a given world. In this paper, we study a positive, negation-free version of instantial neighbourhood logic with two primitive instantial modalities, one of box-type and one of diamond-type. Since classical negation is not available, the two modalities are treated independently. We introduce the language and proof system of positive instantial neighbourhood logic (PINL) and interpret it over persistent two-sided neighbourhood models. We then define a typed persistent neighbourhood semantics, used as an auxiliary canonical semantics to control witness and co-witness conditions. This yields a truth lemma and the corresponding completeness result of PINL. On the algebraic side, we introduce \(2\)-$\mathrm{DLIO}$s, bounded distributive lattices equipped with two families of instantial operations, as the algebraic semantics of PINL. We prove algebraic soundness and completeness via the Lindenbaum \(2\)-$\mathrm{DLIO}$. Finally, we construct the canonical bitopological PINL-space and show that the algebra of its admissible positive opens is isomorphic to the Lindenbaum \(2\)-$\mathrm{DLIO}$. Thus the paper gives a canonical admissible-open representation of positive instantial neighbourhood logic, providing a first step toward a future duality theory.
Editorial analysis
A structured set of objections, weighed in public.
Referee Report
Summary. The paper introduces Positive Instantial Neighbourhood Logic (PINL), a negation-free modal logic with independent box-type and diamond-type instantial modalities. It interprets the logic over persistent two-sided neighbourhood models, introduces an auxiliary typed persistent neighbourhood semantics to obtain a truth lemma and completeness, defines 2-DLIOs as algebraic semantics, proves algebraic soundness and completeness via the Lindenbaum 2-DLIO, and constructs a canonical bitopological PINL-space whose algebra of admissible positive opens is isomorphic to the Lindenbaum algebra, yielding a canonical representation.
Significance. If the derivations hold, the work supplies a completeness theorem and admissible-open representation for a positive fragment of instantial neighbourhood logic, treating the two modalities independently in the absence of negation. This constitutes a first step toward duality theory for such logics. The use of an auxiliary typed semantics to secure the truth lemma and the explicit Lindenbaum-algebra isomorphism are concrete technical contributions.
minor comments (3)
- §2 (Language and proof system): the syntax for the two instantial modalities is introduced without an explicit comparison table to the classical instantial neighbourhood logic operators; adding such a table would clarify the negation-free treatment.
- §4 (Typed persistent neighbourhood semantics): the definition of the witness and co-witness conditions is given in prose; a displayed list of the four conditions with their formal clauses would improve readability of the truth-lemma argument.
- The paper cites prior work on instantial neighbourhood logic but does not include a short paragraph contrasting the positive case with the classical one; such a paragraph would help situate the contribution.
Simulated Author's Rebuttal
We thank the referee for their positive summary of the paper, recognition of its technical contributions, and recommendation of minor revision. No specific major comments were raised in the report.
Circularity Check
No significant circularity; standard completeness construction
full rationale
The paper defines PINL syntax, persistent two-sided neighbourhood models, typed auxiliary semantics, proof system, 2-DLIO algebras, Lindenbaum algebra, and canonical bitopological space from scratch. Completeness follows the usual pattern: truth lemma via auxiliary semantics, algebraic soundness/completeness via Lindenbaum 2-DLIO, and admissible-open isomorphism. No equations reduce a target result to a fitted parameter, no self-citation chain bears the central claim, and no ansatz or renaming is smuggled in. The derivation is self-contained against external model-theoretic and algebraic benchmarks.
Axiom & Free-Parameter Ledger
axioms (2)
- standard math Bounded distributive lattices satisfy the standard equational axioms of bounded lattices and distributivity
- domain assumption Neighbourhood frames admit persistent two-sided models
Reference graph
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