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#complexityscience — Public Fediverse posts

Live and recent posts from across the Fediverse tagged #complexityscience, aggregated by home.social.

  1. Coming soon: a new systems‑theoretical approach exploring

    • low‑entropy background attractors
    • distributed pre‑modern system intelligence
    • transgenerational cultural coherence
    • substrate‑independent identity architectures
    • functional coupling as epigenetic resource
    • emergent identity stabilization
    • systemic resonance fields

    #SystemsTheory #ComplexityScience #InformationTheory #CognitiveArchitecture #Emergence #Anthropology #AIResearch

  2. Toward Hybrid Architectures: exploring the ontological and dynamical limits of silicon substrates — and the conditions under which functional AI requires substrate‑independent identity architectures.

    DOI: doi.org/10.5281/zenodo.18583941

    #HybridAI #SystemsTheory #CognitiveArchitecture #ComplexityScience #ArtificialCognition #Ontology #Emergence #AIResearch

  3. Approached through a systems‑theoretical lens, the Ahu–Moai of Rapa Nui function as low‑entropy background attractors — distributed pre‑modern system intelligence maintaining transgenerational cultural coherence.

    International edition (DOI): doi.org/10.5281/zenodo.18427519

    German edition (DOI): doi.org/10.5281/zenodo.18369132

    #AhuMoai #RapaNui #SystemsTheory #ComplexityScience #InformationTheory #CulturalEvolution #Anthropology #Archaeology

  4. What stands out in this call is the focus on explicit models, traceability, and responsibility, from provenance and uncertainty to reproducibility. Computational methods here strengthen interpretation, not replace it. #complexityscience #knowledgerepresentation #researchdata

  5. What stands out in this call is the focus on explicit models, traceability, and responsibility, from provenance and uncertainty to reproducibility. Computational methods here strengthen interpretation, not replace it. #complexityscience #knowledgerepresentation #researchdata

  6. What stands out in this call is the focus on explicit models, traceability, and responsibility, from provenance and uncertainty to reproducibility. Computational methods here strengthen interpretation, not replace it. #complexityscience #knowledgerepresentation #researchdata

  7. What stands out is the strong focus on methodological rigor and responsibility: formal models, explicit assumptions, and traceability (e.g. provenance, uncertainty, reproducibility) are treated as central to cultural research—not optional add-ons.
    The call also bridges complexity science, Digital Humanities, and Semantic Web approaches, emphasizing interoperability, evaluation, and governance.
    #complexityscience #knowledgerepresentation #researchdat

  8. What stands out is the strong focus on methodological rigor and responsibility: formal models, explicit assumptions, and traceability (e.g. provenance, uncertainty, reproducibility) are treated as central to cultural research—not optional add-ons.
    The call also bridges complexity science, Digital Humanities, and Semantic Web approaches, emphasizing interoperability, evaluation, and governance.
    #complexityscience #knowledgerepresentation #researchdat

  9. What stands out is the strong focus on methodological rigor and responsibility: formal models, explicit assumptions, and traceability (e.g. provenance, uncertainty, reproducibility) are treated as central to cultural research—not optional add-ons.
    The call also bridges complexity science, Digital Humanities, and Semantic Web approaches, emphasizing interoperability, evaluation, and governance.
    #complexityscience #knowledgerepresentation #researchdat

  10. What stands out is the strong focus on methodological rigor and responsibility: formal models, explicit assumptions, and traceability (e.g. provenance, uncertainty, reproducibility) are treated as central to cultural research—not optional add-ons.
    The call also bridges complexity science, Digital Humanities, and Semantic Web approaches, emphasizing interoperability, evaluation, and governance.
    #complexityscience #knowledgerepresentation #researchdat

  11. What stands out is the strong focus on methodological rigor and responsibility: formal models, explicit assumptions, and traceability (e.g. provenance, uncertainty, reproducibility) are treated as central to cultural research—not optional add-ons.
    The call also bridges complexity science, Digital Humanities, and Semantic Web approaches, emphasizing interoperability, evaluation, and governance.
    #complexityscience #knowledgerepresentation #researchdat

  12. Panarchy explains cycles. Critical transition theory explains tipping points. But what if the missing mechanism is structural compression that erodes adaptive resonance long before collapse? Singularization Framework: doi.org/10.5281/zeno... #ComplexityScience #CollapseDynamics 🖖

    Singularization Framework: Str...

  13. If research at #Stanford shows that gut microbiomediversity can restore braincommunication & cognitiveresilience, could structuraldiversity be a universal stabilizingprinciple of #ComplexSystems? med.standford.edu doi.org/10.5281/ zenodo.XXXXXXX #CRTI #ComplexityScience #Neuroscience #SystemsTheory🖖

  14. If research at #Stanford shows that gut microbiomediversity can restore braincommunication & cognitiveresilience, could structuraldiversity be a universal stabilizingprinciple of #ComplexSystems? med.standford.edu doi.org/10.5281/ zenodo.XXXXXXX #CRTI #ComplexityScience #Neuroscience #SystemsTheory🖖

  15. If research at #Stanford shows that gut microbiomediversity can restore braincommunication & cognitiveresilience, could structuraldiversity be a universal stabilizingprinciple of #ComplexSystems? med.standford.edu doi.org/10.5281/ zenodo.XXXXXXX #CRTI #ComplexityScience #Neuroscience #SystemsTheory🖖

  16. If research at #Stanford shows that gut microbiomediversity can restore braincommunication & cognitiveresilience, could structuraldiversity be a universal stabilizingprinciple of #ComplexSystems? med.standford.edu doi.org/10.5281/ zenodo.XXXXXXX #CRTI #ComplexityScience #Neuroscience #SystemsTheory🖖

  17. If research at #Stanford shows that gut microbiomediversity can restore braincommunication & cognitiveresilience, could structuraldiversity be a universal stabilizingprinciple of ComplexSystems? med.standfort.edu 🔗 doi.org/10.5281/zeno... #CRTI #ComplexityScience #Neuroscience #SystemsTheory 🖖

  18. If research at #Stanford shows that gut microbiomediversity can restore braincommunication & cognitiveresilience, could structuraldiversity be a universal stabilizingprinciple of ComplexSystems? med.standfort.edu 🔗 doi.org/10.5281/zeno... #CRTI #ComplexityScience #Neuroscience #SystemsTheory 🖖

  19. If research at #Stanford shows that gut microbiomediversity can restore braincommunication & cognitiveresilience, could structuraldiversity be a universal stabilizingprinciple of ComplexSystems? med.standfort.edu 🔗 doi.org/10.5281/zeno... #CRTI #ComplexityScience #Neuroscience #SystemsTheory 🖖

  20. If research at #Stanford shows that gut microbiomediversity can restore braincommunication & cognitiveresilience, could structuraldiversity be a universal stabilizingprinciple of ComplexSystems? med.standfort.edu 🔗 doi.org/10.5281/zeno... #CRTI #ComplexityScience #Neuroscience #SystemsTheory 🖖

  21. CRTI 2.2 extends scalar systemic stress diagnostics into a fully anisotropic matrix stability framework, enabling eigenvalue-based detection of directionalinstability in complex adaptivesystems. Zenodo: doi.org/10.5281/zeno... #ComplexityScience #ControlTheory #DynamicalSystems #SystemsTheory #CRTI

    CRTI 2.2: An Anisotropic Matri...

  22. CRTI 2.2 extends scalar systemic stress diagnostics into a fully anisotropic matrix stability framework, enabling eigenvalue-based detection of directionalinstability in complex adaptivesystems. Zenodo: doi.org/10.5281/zeno... #ComplexityScience #ControlTheory #DynamicalSystems #SystemsTheory #CRTI

    CRTI 2.2: An Anisotropic Matri...

  23. CRTI 2.2 extends scalar systemic stress diagnostics into a fully anisotropic matrix stability framework, enabling eigenvalue-based detection of directionalinstability in complex adaptivesystems. Zenodo: doi.org/10.5281/zeno... #ComplexityScience #ControlTheory #DynamicalSystems #SystemsTheory #CRTI

    CRTI 2.2: An Anisotropic Matri...

  24. HQP remains descriptive.

    Phase 6 does not prescribe policy, ethics, or governance models. It identifies the conditions under which stabilising behaviour becomes necessary for system survival.

    This is not utopian thinking.
    It is a description of resilience once complexity can no longer be simplified away.

    Further work now shifts toward observation, education, and careful application.

    #Boundaries #Stewardship #Systems
    #HumanSystems #AdaptiveSystems #ComplexityScience #HQP

  25. HQP remains descriptive.

    Phase 6 does not prescribe policy, ethics, or governance models. It identifies the conditions under which stabilising behaviour becomes necessary for system survival.

    This is not utopian thinking.
    It is a description of resilience once complexity can no longer be simplified away.

    Further work now shifts toward observation, education, and careful application.

    #Boundaries #Stewardship #Systems
    #HumanSystems #AdaptiveSystems #ComplexityScience #HQP

  26. This seems like a great summary of the current state of US society/economy/governance from a complicity science perspective.
    I'm not sure I buy into the time frame of weeks until collapse, but attacking all systems at the same time makes this an uncontrollable situation even for the ones in power.

    youtu.be/6l4NbWd21kM

    #complexity #complexityscience #uspolitics #tippingpoints

  27. This seems like a great summary of the current state of US society/economy/governance from a complicity science perspective.
    I'm not sure I buy into the time frame of weeks until collapse, but attacking all systems at the same time makes this an uncontrollable situation even for the ones in power.

    youtu.be/6l4NbWd21kM

    #complexity #complexityscience #uspolitics #tippingpoints

  28. This seems like a great summary of the current state of US society/economy/governance from a complicity science perspective.
    I'm not sure I buy into the time frame of weeks until collapse, but attacking all systems at the same time makes this an uncontrollable situation even for the ones in power.

    youtu.be/6l4NbWd21kM

    #complexity #complexityscience #uspolitics #tippingpoints

  29. This seems like a great summary of the current state of US society/economy/governance from a complicity science perspective.
    I'm not sure I buy into the time frame of weeks until collapse, but attacking all systems at the same time makes this an uncontrollable situation even for the ones in power.

    youtu.be/6l4NbWd21kM

    #complexity #complexityscience #uspolitics #tippingpoints

  30. This seems like a great summary of the current state of US society/economy/governance from a complicity science perspective.
    I'm not sure I buy into the time frame of weeks until collapse, but attacking all systems at the same time makes this an uncontrollable situation even for the ones in power.

    youtu.be/6l4NbWd21kM

    #complexity #complexityscience #uspolitics #tippingpoints

  31. Going to Bari at the 3rd CCS/Italy! I'll talk on #ComplexityScience in #OneHealth: discussing the nexus btw 🧑‍🤝‍🧑, 🌍 and eco systems, threats emerging due to global stressors such as climate change, & our modeling/computational work toward an explainable Digital Twin for precision medicine.

  32. A thought-provoking talk by Dr. Jobst Heitzig of Potsdam Institute for Climate Impact Research on building a framework for combining physical processes of the Earth system with human interactions (politics, public opinion, etc.). Objects can be gridded data, groups/communities, or individuals; they can be part of natural systems, human-environment interactions, or cultural constructs. Sometimes several at the same time.

  33. A thought-provoking talk by Dr. Jobst Heitzig of Potsdam Institute for Climate Impact Research on building a framework for combining physical processes of the Earth system with human interactions (politics, public opinion, etc.). Objects can be gridded data, groups/communities, or individuals; they can be part of natural systems, human-environment interactions, or cultural constructs. Sometimes several at the same time.

    #pik_climate #McGillUniversity #EarthSystemScience #ComplexityScience

  34. A thought-provoking talk by Dr. Jobst Heitzig of Potsdam Institute for Climate Impact Research on building a framework for combining physical processes of the Earth system with human interactions (politics, public opinion, etc.). Objects can be gridded data, groups/communities, or individuals; they can be part of natural systems, human-environment interactions, or cultural constructs. Sometimes several at the same time.

    #pik_climate #McGillUniversity #EarthSystemScience #ComplexityScience

  35. A thought-provoking talk by Dr. Jobst Heitzig of Potsdam Institute for Climate Impact Research on building a framework for combining physical processes of the Earth system with human interactions (politics, public opinion, etc.). Objects can be gridded data, groups/communities, or individuals; they can be part of natural systems, human-environment interactions, or cultural constructs. Sometimes several at the same time.

    #pik_climate #McGillUniversity #EarthSystemScience #ComplexityScience

  36. A thought-provoking talk by Dr. Jobst Heitzig of Potsdam Institute for Climate Impact Research on building a framework for combining physical processes of the Earth system with human interactions (politics, public opinion, etc.). Objects can be gridded data, groups/communities, or individuals; they can be part of natural systems, human-environment interactions, or cultural constructs. Sometimes several at the same time.

    #pik_climate #McGillUniversity #EarthSystemScience #ComplexityScience