claim
active
claim:whitehead-compositionality-schrodinger-compositionality-complete-compositionality-lego-compositionalityWhitehead compositionality, Schrödinger compositionality, Complete compositionality, LEGO compositionality
Summary claim listing four types of compositionality distinguished in the talk
Source paper
extracted_fromNeighborhood — ranked by edge-count
Concepts (1)
concept
- CompositionalityextendsCentral concept: how meaning of wholes depends on meanings of parts and their structural arrangement; multiple formulations explored (Frege, Schrödinger, Whitehead, LEGO).
Questions (1)
question
- Primary guiding question for the paper; explores multiple formulations and uses of the term.
Artifacts (1)
artifact
- Slide presentation on quantum compositional intelligence by Bob Coecke at ACT2022
Related by similarity (8)
cosine ≥ 0.65 · no typed edgeEntities in the same semantic neighborhood but without a typed relation to this one — candidates for new edges or unrecognized duplicates.
- Process theory variant requiring all ingredients have clear meaningful ontological counterparts in reality.
- Variant of compositional theory mentioned in summary; represents rigid, modular composition model.
- Process theory where all ingredients have clear meaningful ontological counterparts in reality
- Strongest form of compositional theory requiring full decomposability and meaningful parts.
- Formal linguistic principle: meaning of a whole depends only on meanings of parts and how they are fitted together (bottom-up meaning flow).
- Process theory variant where composition is non-trivial (whole cannot be decomposed meaningfully) and all ingredients have clear ontological counterparts in reality.
- Key target areas (theory and tools): – Practical compositional quantum – Practical compositional AIquestion0.743Question about the main applied goals of the compositional intelligence programme
- Quantum computing leveraging compositionality for circuit design, error correction, and more