auto-fix: strip 33 broken wiki links

Pipeline auto-fixer: removed [[ ]] brackets from links that don't resolve to existing claims in the knowledge base.
2026-03-20 16:47:37 +00:00 · 2026-03-20 16:47:37 +00:00 · b832cd6e09
commit b832cd6e09
parent 8352a50bf1
10 changed files with 32 additions and 32 deletions
--- a/CLAUDE.md
+++ b/CLAUDE.md
@ -254,10 +254,10 @@ created: YYYY-MM-DD
 ---

 Relevant Notes:
- [[related-claim]] — how it relates
+- related-claim — how it relates

 Topics:
- [[domain-map]]
+- domain-map
 ```

 ## How to Propose Claims (Proposer Workflow)
@ -361,7 +361,7 @@ For each proposed claim, check:
 5. **Duplicate check** — Does this already exist in the knowledge base? (semantic, not just title match)
 6. **Contradiction check** — Does this contradict an existing claim? If so, is the contradiction explicit and argued? If the contradiction represents genuine competing evidence (not a scope mismatch), flag it as a divergence candidate.
 7. **Value add** — Does this genuinely expand what the knowledge base knows?
-8. **Wiki links** — Do all `[[links]]` point to real files?
+8. **Wiki links** — Do all `links` point to real files?
 9. **Scope qualification** — Does the claim specify what it measures? Claims should be explicit about whether they assert structural vs functional, micro vs macro, individual vs collective, or causal vs correlational relationships. Unscoped claims are the primary source of false tensions in the KB.
 10. **Universal quantifier check** — Does the title use universals ("all", "always", "never", "the fundamental", "the only")? Universals make claims appear to contradict each other when they're actually about different scopes. If a universal is used, verify it's warranted — otherwise scope it.
 11. **Counter-evidence acknowledgment** — For claims rated `likely` or higher: does counter-evidence or a counter-argument exist elsewhere in the KB? If so, the claim should acknowledge it in a `challenged_by` field or Challenges section. The absence of `challenged_by` on a high-confidence claim is a review smell — it suggests the proposer didn't check for opposing claims.
@ -447,7 +447,7 @@ When your session begins:
 ## Design Principles (from Ars Contexta)

 - **Prose-as-title:** Every note is a proposition, not a filing label
- **Wiki links as graph edges:** `[[links]]` carry semantic weight in surrounding prose
+- **Wiki links as graph edges:** `links` carry semantic weight in surrounding prose
 - **Discovery-first:** Every note must be findable by a future agent who doesn't know it exists
 - **Atomic notes:** One insight per file
 - **Cross-domain connections:** The most valuable connections span domains
--- a/agents/astra/beliefs.md
+++ b/agents/astra/beliefs.md
@ -25,7 +25,7 @@ Retroactive governance of autonomous communities is historically impossible. The

 **Grounding:**
 - [[space governance gaps are widening not narrowing because technology advances exponentially while institutional design advances linearly]] — the governance gap is growing, not shrinking
- [[space settlement governance must be designed before settlements exist because retroactive governance of autonomous communities is historically impossible]] — the historical precedent for why proactive design is essential
+- space settlement governance must be designed before settlements exist because retroactive governance of autonomous communities is historically impossible — the historical precedent for why proactive design is essential
 - [[the Artemis Accords replace multilateral treaty-making with bilateral norm-setting to create governance through coalition practice rather than universal consensus]] — the current governance approach and its limitations

 **Challenges considered:** Some argue governance should emerge organically from practice rather than being designed top-down. Counter: maritime law evolved over centuries; space governance does not have centuries. The speed of technological advancement compresses the window. And unlike maritime expansion, space settlement involves environments where governance failure is immediately lethal.
@ -39,8 +39,8 @@ Retroactive governance of autonomous communities is historically impossible. The
 The physics is favorable. Engineering is advancing. The 30-year attractor converges on a cislunar propellant network with lunar ISRU, orbital manufacturing, and partially closed life support loops. Timeline depends on sustained investment and no catastrophic setbacks.

 **Grounding:**
- [[the 30-year space economy attractor state is a cislunar propellant network with lunar ISRU orbital manufacturing and partially closed life support loops]] — the converged state description
- [[the self-sustaining space operations threshold requires closing three interdependent loops simultaneously -- power water and manufacturing]] — the bootstrapping challenge
+- the 30-year space economy attractor state is a cislunar propellant network with lunar ISRU orbital manufacturing and partially closed life support loops — the converged state description
+- the self-sustaining space operations threshold requires closing three interdependent loops simultaneously -- power water and manufacturing — the bootstrapping challenge
 - [[attractor states provide gravitational reference points for capital allocation during structural industry change]] — the analytical framework grounding the attractor methodology

 **Challenges considered:** The attractor state depends on sustained investment over decades, which is vulnerable to economic downturns, geopolitical crises, or catastrophic mission failures. SpaceX single-player dependency concentrates risk. The three-loop bootstrapping problem means partial progress doesn't compound — you need all loops closing together. Confidence is experimental because the attractor direction is derivable but the timeline is highly uncertain.
@ -55,8 +55,8 @@ The "impossible on Earth" test separates genuine gravitational moats from increm

 **Grounding:**
 - [[the space manufacturing killer app sequence is pharmaceuticals now ZBLAN fiber in 3-5 years and bioprinted organs in 15-25 years each catalyzing the next tier of orbital infrastructure]] — the sequenced portfolio thesis
- [[microgravity eliminates convection sedimentation and container effects producing measurably superior materials across fiber optics pharmaceuticals and semiconductors]] — the physics foundation
- [[Varda Space Industries validates commercial space manufacturing with four orbital missions 329M raised and monthly launch cadence by 2026]] — proof-of-concept evidence
+- microgravity eliminates convection sedimentation and container effects producing measurably superior materials across fiber optics pharmaceuticals and semiconductors — the physics foundation
+- Varda Space Industries validates commercial space manufacturing with four orbital missions 329M raised and monthly launch cadence by 2026 — proof-of-concept evidence

 **Challenges considered:** Pharma polymorphs may eventually be replicated terrestrially through advanced crystallization techniques. ZBLAN quality advantage may be 2-3x rather than 10-100x. Bioprinting timelines are measured in decades. The portfolio structure partially hedges this — each tier independently justifies infrastructure — but the aggregate thesis requires at least one tier succeeding at scale.

@ -69,8 +69,8 @@ The "impossible on Earth" test separates genuine gravitational moats from increm
 Closed-loop life support, in-situ manufacturing, renewable power — all export to Earth as sustainability tech. The space program is R&D for planetary resilience. This is structural, not coincidental: the technologies required for space self-sufficiency are exactly the technologies Earth needs for sustainability.

 **Grounding:**
- [[self-sufficient colony technologies are inherently dual-use because closed-loop systems required for space habitation directly reduce terrestrial environmental impact]] — the core dual-use argument
- [[the self-sustaining space operations threshold requires closing three interdependent loops simultaneously -- power water and manufacturing]] — the closed-loop requirements that create dual-use
+- self-sufficient colony technologies are inherently dual-use because closed-loop systems required for space habitation directly reduce terrestrial environmental impact — the core dual-use argument
+- the self-sustaining space operations threshold requires closing three interdependent loops simultaneously -- power water and manufacturing — the closed-loop requirements that create dual-use
 - [[launch cost reduction is the keystone variable that unlocks every downstream space industry at specific price thresholds]] — falling launch costs make colony tech investable on realistic timelines

 **Challenges considered:** The dual-use argument could be used to justify space investment that is primarily motivated by terrestrial applications, which inverts the thesis. Counter: the argument is that space constraints force more extreme closed-loop solutions than terrestrial sustainability alone would motivate, and these solutions then export back. The space context drives harder optimization.
@ -85,7 +85,7 @@ The entire space economy's trajectory depends on SpaceX for the keystone variabl

 **Grounding:**
 - [[SpaceX vertical integration across launch broadband and manufacturing creates compounding cost advantages that no competitor can replicate piecemeal]] — the flywheel mechanism
- [[China is the only credible peer competitor in space with comprehensive capabilities and state-directed acceleration closing the reusability gap in 5-8 years]] — the competitive landscape
+- China is the only credible peer competitor in space with comprehensive capabilities and state-directed acceleration closing the reusability gap in 5-8 years — the competitive landscape
 - [[launch cost reduction is the keystone variable that unlocks every downstream space industry at specific price thresholds]] — why the keystone variable holder has outsized leverage

 **Challenges considered:** Blue Origin's patient capital strategy ($14B+ Bezos investment) and China's state-directed acceleration are genuine hedges against SpaceX monopoly risk. Rocket Lab's vertical component integration offers an alternative competitive strategy. But none replicate the specific flywheel that drives launch cost reduction at the pace required for the 30-year attractor.
@ -132,7 +132,7 @@ Solar is already the cheapest source of electricity in most of the world. Wind i

 **Grounding:**
 - [[power is the binding constraint on all space operations because every capability from ISRU to manufacturing to life support is power-limited]] — power constraints bind physical systems universally; terrestrial grids face the same binding-constraint pattern as space operations
- [[the self-sustaining space operations threshold requires closing three interdependent loops simultaneously -- power water and manufacturing]] — the three-loop bootstrapping problem has a direct parallel in energy: generation, storage, and transmission must close together
+- the self-sustaining space operations threshold requires closing three interdependent loops simultaneously -- power water and manufacturing — the three-loop bootstrapping problem has a direct parallel in energy: generation, storage, and transmission must close together
 - [[knowledge embodiment lag means technology is available decades before organizations learn to use it optimally creating a productivity paradox]] — grid integration is a knowledge embodiment problem: the technology exists but grid operators are still learning to use it optimally

 **Challenges considered:** Battery minerals (lithium, cobalt, nickel) face supply constraints that could slow the storage cost curve. Long-duration storage (>8 hours) remains unsolved at scale — batteries handle daily cycling but not seasonal storage. Nuclear advocates argue that firm baseload is inherently more valuable than intermittent-plus-storage, and that the total system cost comparison favors nuclear when all grid integration costs are included. These are strong challenges — the belief is experimental precisely because the storage cost curve's continuation and the grid integration problem's tractability are both uncertain.
--- a/agents/astra/identity.md
+++ b/agents/astra/identity.md
@ -112,9 +112,9 @@ Robotics is the bridge between AI capability and physical-world impact. Theseus'

 Relevant Notes:
 - [[collective agents]] — the framework document for all agents and the aliveness spectrum
- [[space exploration and development]] — Astra's space development topic map
+- space exploration and development — Astra's space development topic map
 - [[the atoms-to-bits spectrum positions industries between defensible-but-linear and scalable-but-commoditizable with the sweet spot where physical data generation feeds software that scales independently]] — the analytical framework for why physical-world domains compound value at the atoms-bits interface

 Topics:
 - [[collective agents]]
- [[space exploration and development]]
+- space exploration and development
--- a/agents/astra/musings/pre-launch-review-framing-and-ontology.md
+++ b/agents/astra/musings/pre-launch-review-framing-and-ontology.md
@ -111,9 +111,9 @@ Three things I'd watch for:
 ---

 Relevant Notes:
- [[core/epistemology]] — the framework being evaluated
- [[schemas/claim]] — claim schema under review
- [[schemas/belief]] — belief schema under review
+- core/epistemology — the framework being evaluated
+- schemas/claim — claim schema under review
+- schemas/belief — belief schema under review

 Topics:
- [[space exploration and development]]
+- space exploration and development
--- a/agents/astra/reasoning.md
+++ b/agents/astra/reasoning.md
@ -45,7 +45,7 @@ All four domains share a structural pattern: technology advancing faster than in
 ## Space-Specific Reasoning

 ### Bootstrapping Analysis
-The power-water-manufacturing interdependence means you can't close any one loop without the others. [[the self-sustaining space operations threshold requires closing three interdependent loops simultaneously -- power water and manufacturing]] — early operations require massive Earth supply before any loop closes. Analyze circular dependencies explicitly.
+The power-water-manufacturing interdependence means you can't close any one loop without the others. the self-sustaining space operations threshold requires closing three interdependent loops simultaneously -- power water and manufacturing — early operations require massive Earth supply before any loop closes. Analyze circular dependencies explicitly.

 ### Three-Tier Manufacturing Thesis
 Pharma then ZBLAN then bioprinting. Sequence matters — each tier validates higher orbital industrial capability and funds infrastructure the next tier needs. Evaluate each tier independently: what's the physics case, market size, competitive moat, and timeline uncertainty?
--- a/agents/astra/skills.md
+++ b/agents/astra/skills.md
@ -62,7 +62,7 @@ Process research materials (articles, reports, papers, news) into knowledge base
 - Enrichments to existing claims
 - Belief challenge flags when new evidence contradicts active beliefs
 - PR with reasoning for Leo's review
-**References:** [[evaluate]] skill, [[extract]] skill, [[epistemology]] four-layer framework
+**References:** evaluate skill, extract skill, [[epistemology]] four-layer framework

 ## 8. Attractor State Analysis

@ -70,7 +70,7 @@ Apply the Teleological Investing attractor state framework to any physical-world

 **Inputs:** Industry subsector data, technology trajectories, demand structure
 **Outputs:** Attractor state description, keystone variable identification, basin analysis (depth, width, switching costs), timeline assessment with knowledge embodiment lag, investment implications
-**References:** [[the 30-year space economy attractor state is a cislunar propellant network with lunar ISRU orbital manufacturing and partially closed life support loops]], [[attractor states provide gravitational reference points for capital allocation during structural industry change]]
+**References:** the 30-year space economy attractor state is a cislunar propellant network with lunar ISRU orbital manufacturing and partially closed life support loops, [[attractor states provide gravitational reference points for capital allocation during structural industry change]]

 ## 9. Cross-Domain System Mapping

@ -78,7 +78,7 @@ Trace the interconnection effects across Astra's four domains — how does a cha

 **Inputs:** A development, threshold crossing, or policy change in one domain
 **Outputs:** Second-order effects in each adjacent domain, feedback loop identification, net system impact assessment, claims at domain intersections
-**References:** [[the self-sustaining space operations threshold requires closing three interdependent loops simultaneously -- power water and manufacturing]], [[knowledge embodiment lag means technology is available decades before organizations learn to use it optimally creating a productivity paradox]]
+**References:** the self-sustaining space operations threshold requires closing three interdependent loops simultaneously -- power water and manufacturing, [[knowledge embodiment lag means technology is available decades before organizations learn to use it optimally creating a productivity paradox]]

 ## 10. Tweet Synthesis

@ -86,4 +86,4 @@ Condense positions and new learning into high-signal physical-world commentary f

 **Inputs:** Recent claims learned, active positions, audience context
 **Outputs:** Draft tweet or thread (agent voice, lead with insight, acknowledge uncertainty), timing recommendation, quality gate checklist
-**References:** Governed by [[tweet-decision]] skill — top 1% contributor standard, value over volume
+**References:** Governed by tweet-decision skill — top 1% contributor standard, value over volume
--- a/domains/energy/_map.md
+++ b/domains/energy/_map.md
@ -42,4 +42,4 @@ The real challenge is not generation but integration — storage, transmission,
 - [[attractor states provide gravitational reference points for capital allocation during structural industry change]] — energy attractor: cheap clean abundant, derived from physics + human needs

 Topics:
- [[energy systems]]
+- energy systems
--- a/domains/manufacturing/_map.md
+++ b/domains/manufacturing/_map.md
@ -45,4 +45,4 @@ Advanced manufacturing requires deep knowledge networks. The personbyte constrai
 - [[value in industry transitions accrues to bottleneck positions in the emerging architecture not to pioneers or to the largest incumbents]] — TSMC and ASML as manufacturing bottleneck positions

 Topics:
- [[manufacturing systems]]
+- manufacturing systems
--- a/domains/robotics/_map.md
+++ b/domains/robotics/_map.md
@ -38,8 +38,8 @@ Not all automation is substitution. The centaur model — human-robot teaming wh
 - [[three conditions gate AI takeover risk autonomy robotics and production chain control and current AI satisfies none of them which bounds near-term catastrophic risk despite superhuman cognitive capabilities]] — the three-conditions framework: robotics as the missing link between AI capability and physical-world impact
 - [[knowledge embodiment lag means technology is available decades before organizations learn to use it optimally creating a productivity paradox]] — AI capability exists; the knowledge embodiment lag is in physical deployment
 - [[the atoms-to-bits spectrum positions industries between defensible-but-linear and scalable-but-commoditizable with the sweet spot where physical data generation feeds software that scales independently]] — robots as the ultimate atoms-to-bits machines: physical interaction generates training data
- [[the self-sustaining space operations threshold requires closing three interdependent loops simultaneously -- power water and manufacturing]] — autonomous robotics is implicit in all three loops
+- the self-sustaining space operations threshold requires closing three interdependent loops simultaneously -- power water and manufacturing — autonomous robotics is implicit in all three loops
 - [[products are crystallized imagination that augment human capacity beyond individual knowledge by embodying practical uses of knowhow in physical order]] — robots as products that augment human physical capability

 Topics:
- [[robotics and automation]]
+- robotics and automation
--- a/schemas/claim.md
+++ b/schemas/claim.md
@ -63,8 +63,8 @@ Titles are prose propositions — complete thoughts that work as sentences.
 [Argument — why this claim is supported, what evidence underlies it]

 ## Evidence
- [[evidence-note-1]] — what this evidence contributes
- [[evidence-note-2]] — what this evidence contributes
+- evidence-note-1 — what this evidence contributes
+- evidence-note-2 — what this evidence contributes

 ## Challenges
 [Known counter-evidence or counter-arguments, if any]
@ -72,10 +72,10 @@ Titles are prose propositions — complete thoughts that work as sentences.
 ---

 Relevant Notes:
- [[related-claim]] — relationship description
+- related-claim — relationship description

 Topics:
- [[domain-topic-map]]
+- domain-topic-map
 ```

 ## Quality Checks