Skip to content
Modular Infrastructure for Inclusive Housing Tran Thien Toan Ngo · PhD Dissertation

The list of tables inventories the numbered tables harvested from chapter prose. Each entry pairs the table number and caption with a wikilink to the source module. Where a table is rendered through a dedicated atomic module under the tbl_ prefix scheme, the link is to that module; where the table is inline within a section file, the link is to the section.

Chapter 2 — Literature Review and Theoretical Framework

  • Table 2.1 — Cross-domain modularity definitions — view
  • Table 2.2 — Knowledge gap analysis: descriptive vs prescriptive (Omega-Lambda) — view
  • Table 2.3 — Meta-requirements and literature sources — view
  • Table 2.4 — Research questions, artefacts, and meta-requirements (problem-class to designed-response traceability) — view

Chapter 3 — Theory: Modularity and Complexity

  • Table 3.1 — Principles of form and function (design-theory anatomy) — view
  • Table 3.2 — Meta-requirement to proposition adjacency mapping (MR1–MR5 × P1–P5) — view
  • Table 3.3 — Proposition contract matrix (mechanism, indicator, baseline, evidence, falsifier) — view

Chapter 4 — Methodology

  • Table 4.1 — Requirements–Design–Evaluation Traceability Matrix — view

Chapter 5 — A Queryable Schema for Accessibility Standards

  • Table 5.1 — Chapter 4 abstract measures mapped to the standardisation schema operationalisations — view
  • Table 5.2 — Per-dimension resolution profile (identity, structural, deontic, lexical, mapping) — view
  • Table 5.3 — Per-clause-class resolution rate scorecard — view
  • Table 5.4 — Deontic force decomposition: coverage gap, force collapse, and force preservation pathways — view
  • Table 5.5 — Schema-variant ablation: aggregate comparison delta across null, minimal, and full variants — view
  • Table 5.6 — Layer-by-layer marginal-gain decomposition — view
  • Table 5.7 — Threshold sensitivity: polysemy ratio across frequency cutpoints — view
  • Table 5.8 — Cross-channel validation summary (text-figure normative coverage overlap) — view
  • Table 5.9 — Failure mode to design principle to schema layer mapping — view
  • Table 5.10 — Ambiguity-treatment categories in prior standards-formalisation work — view

Chapter 7 — A Formal Notation for Floor Plans

  • Table 7.1 — Governed-kernel stratified vocabulary (seven primitives, seven composites, ten operators) mapped to PlaniSyn syntactic forms — view
  • Table 7.2 — Pre/Post/Effect specification for the four PlaniSyn interaction types — view
  • Table 7.3 — PlaniSyn interaction-type coverage of the three governed-kernel interface types (HC-6D, NR-014) — view

Chapter 8 — Evidence from a Census of Australian Floor Plans

  • Table 8.1 — Corpus summary statistics (CP-D5 v5.0) — view
  • Table 8.2 — Top 10 module candidates with fitness scores — view
  • Table 8.3 — Coincidence families at 25 mm — view
  • Table 8.4 — Corpus frequency threshold derivation — view
  • Table 8.5 — Space-category coupling metrics — view
  • Table 8.6 — Generator output statistics — view
  • Table 8.7 — Meso-module tier derivation — view
  • Table 8.8 — the empirical substrate validation summary — view

Chapter 10 — Demonstration and Evaluation

  • Table 10.1 — Evidence-object register: primary (matrix-declared) and inline-synthesised identifiers exercised across the trajectory — view
  • Table 10.2 — Per-state corpus position against the general-residential cohort distribution — view
  • Table 10.3 — State-by-state interpretability profile across the four sub-criteria — view
  • Table 10.4 — Per-state modular-fit profile across the three components — view
  • Table 10.5 — Per-state module-inheritance ratio — view
  • Table 10.6 — Per-event workflow burden across the trajectory’s seven dwelling states — view
  • Table 10.7 — Synthesis matrix: result domain → measure → evidence object → proposition → adjudication — view

Chapter 12 — Conclusion

  • Table 12.1 — Final recommendations matrix (audience → recommendation → evidence base) — view