add paper

Author: kadubon

works.html

@@ -70,6 +70,41 @@
         "https://huggingface.co/kadubon"
       ],
       "publication": [
+        {
+          "@type": "ScholarlyArticle",
+          "@id": "https://doi.org/10.5281/zenodo.18997828",
+          "identifier": {
+            "@type": "PropertyValue",
+            "propertyID": "DOI",
+            "value": "10.5281/zenodo.18997828",
+            "url": "https://doi.org/10.5281/zenodo.18997828"
+          },
+          "name": "Sovereign Epistemic Commons under No-Meta Governance",
+          "genre": "Preprint",
+          "url": "https://doi.org/10.5281/zenodo.18997828",
+          "sameAs": "https://zenodo.org/records/18997828",
+          "datePublished": "2026-03-13",
+          "inLanguage": "en",
+          "author": [
+            {
+              "@type": "Person",
+              "name": "K Takahashi",
+              "sameAs": "https://orcid.org/0009-0004-4273-3365"
+            }
+          ],
+          "publisher": {
+            "@type": "Organization",
+            "name": "Zenodo"
+          },
+          "isPartOf": {
+            "@type": "Periodical",
+            "name": "Zenodo"
+          },
+          "license": "https://creativecommons.org/licenses/by/4.0/",
+          "citation": "K Takahashi (2026-03-13). Sovereign Epistemic Commons under No-Meta Governance. Zenodo. https://doi.org/10.5281/zenodo.18997828",
+          "abstract": "Sovereign Epistemic Commons under No-Meta Governance develops a governance-layer theory for shared epistemic commons: persistent knowledge substrates jointly maintained by autonomous agents under finite budgets, asynchronous visibility, provenance uncertainty, recursive regeneration, and the absence of any privileged semantic judge. Rather than replacing lower-layer theories of persistent semantics, observability metrology, constitutional revision, agenda coupling, or liberty under drift, the paper treats them as fallible operational interfaces and focuses on a narrower question: which observable governance laws allow a shared commons to preserve protected-query answerability, structured contradiction, anti-capture slack, and controlled exit without collapsing under endogenous contamination, hidden common causes, interference, bridge oligarchy, or tombstone growth. The paper introduces an explicit formal core with a canonical admissibility relation, provenance-depth-discounted exogeneity, contamination potential, transport-collapsed witness clusters, normalized entropy and defect penalties, feasible-cartel capture cost, contradiction reserve, typed memory lanes, accessible-witness recall, defense stress, and compatibility debt. It proves results on non-viability of monotone retention, shock-aware contamination bounds, contradiction underprovision, no-meta garbage-collection limits, and operational governance constraints for recursive agent societies. The framework is further operationalized through machine-readable governance profiles, estimator recipes, and a concrete toy model based on a distributed key-value / retrieval commons, making the theory auditable and implementation-facing as well as formally structured.",
+          "keywords": "epistemic commons, no-meta, autonomous agents, multi-agent systems, shared memory, shared knowledge substrate, agent society, contradiction preservation, contradiction reserve, agent memory governance, provenance, observability, AI governance, retrieval-augmented generation, RAG, distributed knowledge systems, asynchronous systems, hidden common causes, cartel capture, latent cartel risk, anti-capture, controlled exit, fork governance, garbage collection, recursive regeneration, endogenous contamination, recursive corpora, ontology drift, typed memory lanes, accessibility, interoperability, knowledge governance, AI, AGI"
+        },
         {
           "@type": "ScholarlyArticle",
           "name": "Oversight-Centered Metrology and Control for Agentic Systems: Costly Interrupt Channels, Claim Margins, and Deployment-Relevant Evaluation",
@@ -3770,6 +3805,42 @@ <h1>
       </a>
      </p>
     </div>
+    <article itemscope itemtype="https://schema.org/ScholarlyArticle">
+     <meta content="en" itemprop="inLanguage"/>
+     <meta content="Preprint" itemprop="genre"/>
+     <meta content="2026-03-13" itemprop="datePublished"/>
+     <meta content="10.5281/zenodo.18997828" itemprop="identifier"/>
+     <meta content="https://creativecommons.org/licenses/by/4.0/" itemprop="license"/>
+     <meta content="https://zenodo.org/records/18997828" itemprop="sameAs"/>
+     <span itemprop="author" itemscope itemtype="https://schema.org/Person">
+      <meta content="K Takahashi" itemprop="name"/>
+      <meta content="https://orcid.org/0009-0004-4273-3365" itemprop="sameAs"/>
+     </span>
+     <span itemprop="publisher" itemscope itemtype="https://schema.org/Organization">
+      <meta content="Zenodo" itemprop="name"/>
+     </span>
+     <h2 itemprop="name">
+      Sovereign Epistemic Commons under No-Meta Governance
+     </h2>
+     <p>
+      <span itemprop="genre">Preprint</span> | Published:
+      <time datetime="2026-03-13" itemprop="datePublished">2026-03-13</time>
+      | DOI:
+      <a href="https://doi.org/10.5281/zenodo.18997828" itemprop="url" target="_blank" rel="noopener noreferrer">
+       10.5281/zenodo.18997828
+      </a>
+      | <a href="https://zenodo.org/records/18997828" target="_blank" rel="noopener noreferrer">
+       Zenodo record
+      </a>
+     </p>
+     <p itemprop="abstract">
+      Abstract: Sovereign Epistemic Commons under No-Meta Governance develops a governance-layer theory for shared epistemic commons: persistent knowledge substrates jointly maintained by autonomous agents under finite budgets, asynchronous visibility, provenance uncertainty, recursive regeneration, and the absence of any privileged semantic judge. Rather than replacing lower-layer theories of persistent semantics, observability metrology, constitutional revision, agenda coupling, or liberty under drift, the paper treats them as fallible operational interfaces and focuses on a narrower question: which observable governance laws allow a shared commons to preserve protected-query answerability, structured contradiction, anti-capture slack, and controlled exit without collapsing under endogenous contamination, hidden common causes, interference, bridge oligarchy, or tombstone growth. The paper introduces an explicit formal core with a canonical admissibility relation, provenance-depth-discounted exogeneity, contamination potential, transport-collapsed witness clusters, normalized entropy and defect penalties, feasible-cartel capture cost, contradiction reserve, typed memory lanes, accessible-witness recall, defense stress, and compatibility debt. It proves results on non-viability of monotone retention, shock-aware contamination bounds, contradiction underprovision, no-meta garbage-collection limits, and operational governance constraints for recursive agent societies. The framework is further operationalized through machine-readable governance profiles, estimator recipes, and a concrete toy model based on a distributed key-value / retrieval commons, making the theory auditable and implementation-facing as well as formally structured.
+     </p>
+     <p>
+      Keywords:
+      <span itemprop="keywords">epistemic commons, no-meta, autonomous agents, multi-agent systems, shared memory, shared knowledge substrate, agent society, contradiction preservation, contradiction reserve, agent memory governance, provenance, observability, AI governance, retrieval-augmented generation, RAG, distributed knowledge systems, asynchronous systems, hidden common causes, cartel capture, latent cartel risk, anti-capture, controlled exit, fork governance, garbage collection, recursive regeneration, endogenous contamination, recursive corpora, ontology drift, typed memory lanes, accessibility, interoperability, knowledge governance, AI, AGI</span>
+     </p>
+    </article>
       <p>
        This page is a research publication list (preprints and articles) by K. Takahashi on no-meta AI alignment, persistence-first superintelligence, and self-organizing intelligence across scales. Each entry includes title, publication type, publication date, DOI, abstract, and keywords; the same metadata is embedded as schema.org JSON-LD for search engines and AI crawlers. Publications are sorted by date, and each DOI links to a machine-readable Zenodo record.
       </p>