Computing the maximal Boolean complexity of families of Aristotelian diagrams (2018), p. 1334
by Demey, Lorenz

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Caption

(a) Generic description of the Aristotelian family of degenerate squares, (b) maximal bitstring representation of the Aristotelian family of JSB hexagons (= bitstring representation of the Boolean subfamily of weak JSB hexagons), (c) bitstring representation of the Boolean subfamily of strong JSB hexagons.

Logic

Aristotelian family

Jacoby-Sesmat-Blanché Sigma-3

Boolean complexity

4

Number of labels per vertex (at most)

2

Equivalence between (some) labels of the same vertex

No

Analogy between (some) labels of the same vertex

No

Uniqueness of the vertices up to logical equivalence

Yes

Errors in the diagram

No

Geometry

Shape

Hexagon (irregular)

Colinearity range

0

Coplanarity range

0

Cospatiality range

0

Representation of contradiction

By central symmetry

Vertex description

Conceptual info

No

Mnemonic support (AEIO, purpurea ...)

No

Form

none

Label type

symbolic

,

generic placeholders

Symbolic field

bitstrings

Contains partial formulas or symbols

No

Contains protobitstrings

No

Bitstring length

4

Edge description

Contains definitions of relations

No

Form

dotted lines

,

solid lines

,

dashed lines

Has arrowheads

Yes

Overlap

No

Curved

No

Hooked

No

As wide as vertices

No

Contains text

No

Label type

none

Style

Diagram is colored

No

Diagram is embellished

No

Tags

Leuven