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Ecosystemic Futures

Ecosystemic Futures

Auteur(s): Dyan Finkhousen: CEO of Shoshin Works
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 Ecosystemic Futures engages with the world’s elite thought leaders who are researching and leading meaningful development in areas that could impact society in the next half century. Provided by Shoshin Works in collaboration with NASA Convergent Aeronautics Solutions Project - Ecosystemic Futures explores technological advances and structural patterns that will help us better innovate, operate, and navigate in our increasingly connected world. Join the conversation as NASA leaders, and industry and policy luminaries share their perspectives with host Dyan Finkhousen, a leading strategist and global authority on ecosystemic solutions, and brilliant co-hosts.© Shoshin Works Science
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  • 107. The Architecture of Resilience: Human Adaptive Capacity

    107. The Architecture of Resilience: Human Adaptive Capacity
    Oct 2 2025

    What if we could measure adaptive capacity with the same precision we apply to engineering rocket systems?


    Dr. Irena Chaushevska Danilovska reveals how neuroscience capabilities integrate with distributed innovation ecosystems to create a mission assurance architecture for organizations seeking resilience in dynamic environments.


    After building startup ecosystems across Silicon Valley, the US, and Europe, Dr. Danilovska recognized a critical pattern: investment systems deployed billions based on networks rather than capability under pressure. Her research validates what becomes possible when we engineer resilient infrastructure AND resilient minds as one integrated system.


    Paradigm Shifts:

    → The 71% Solution: Six validated dimensions of "Adaptive Capacity Under Uncertainty" predict entrepreneurial success with 71% accuracy (vs. Big Five's 10%)—transforming human performance from soft variable to quantifiable mission assurance metric

    → Distributed Redundancy Architecture: Regional innovation hubs co-located with NASA centers create parallel supplier networks—eliminating six-month wait times and single-point failures threatening national security

    → Complementarity Engineering: Mission-specific team profiles optimize for collective adaptive capacity, not individual perfection (commanders: resilience + leadership; specialists: curiosity + innovativeness; directors: decision-making + opportunism)


    The Innovation: Space Coast Valley Earth Port pioneers integrated infrastructure development and human potential assessment as one co-evolutionary system. No hardware milestone without a matching ecosystem + human milestone. No subjective selection without evidence-based assessment.


    Key Finding: Only 3-5% of aspiring entrepreneurs possess the necessary baseline adaptive capacity. Corporate CEOs demonstrate strength in resilience/leadership but exhibit weakness in curiosity and value creation. Successful founders score high across all dimensions—and these traits are trainable through neurofeedback protocols.


    Strategic Reframe: "How do we architect both resilient infrastructure and optimized human teams as integrated elements? How do we design adaptive capacity—human and organizational—into systems from inception rather than hoping for it?"


    The next decade will return humanity to the Moon and push toward Mars. The systems we build now—both technological and human—determine whether we thrive beyond Earth.


    Guest: Dr. Irena Chaushevska Danilovska, Founder & CEO, Space Coast Valley Earth Port


    Host: Marco Annunziata, Co-Founder, Annunziata Desai Advisors


    Series Hosts:

    Vikram Shyam, Lead Futurist, NASA Glenn Research Center

    Dyan Finkhousen, Founder & CEO, Shoshin Works


    Ecosystemic Futures is a systems foresight series provided by Shoshin Works, evolved from our collaboration with NASA's Convergent Aeronautics Solutions Project.
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    52 min
  • 106. Human Systems Engineering: Vision as Gravitational Force

    106. Human Systems Engineering: Vision as Gravitational Force
    Sep 23 2025
    The future belongs to organizations that engineer ecosystems with spacecraft-level precision. Carol Erikson reveals the breakthrough: applying aerospace systems engineering to organizational transformation unlocks exponential performance gains across speed, cost, and effectiveness.After 30 years leading aerospace missions and digital transformation at Northrop Grumman, Erikson discovered the paradigm that will define next-generation ecosystems: simultaneous execution of seemingly contradictory strategies. Aerospace-grade systems thinking creates adaptive networks that thrive under pressure, delivering breakthrough results while traditional approaches stagnate.Paradigm Shifts:→ Vision as Gravitational Force: Common vision doesn't just align - it functions as engineered gravity in human systems. Erikson reveals how aerospace teams design a "gravitational pull" that keeps ecosystem components in an orbital relationship, even when individual motivations diverge.→ The Common Good Framework Revolution: Notre Dame researchers are developing the first systematic merger of DARPA's decades-proven AI "Common Test Framework" with ethics and trust mechanisms. This could become the universal operating system for human-AI ecosystem governance.→ Systematic Insensitivity Protocol: Mission-critical ecosystems engineer deliberate "noise immunity" - systematic insensitivity to geopolitical chaos while maintaining collaborative urgency. Organizations that master this protocol gain a significant advantage during periods of fragmentation.→ Big Rocks/Little Rocks Simultaneity: The counter-intuitive discovery that breakthrough transformation requires engineering for massive multi-year "big rock" changes AND rapid "little rock" wins simultaneously - with mathematical precision about which rocks to move when in the system architecture of change itself.Ecosystem Impact:→ Competition as Engineered Energy Source: Erikson reveals how to design "healthy competition" as a system component - transforming competitive dynamics from problem to managed energy that accelerates ecosystem performance→ Interface Checkpoint Architecture: Human-AI collaboration designed with spacecraft-level interface specifications - measurable checkpoints, defined limits, and systematic trust mechanisms rather than hoping for organic adoption→ Duplication-of-Effort Diagnostic: When transformation pilots proliferate in isolation, it signals the need for systematic integration. Organizations can now engineer transformation rather than managing random change initiatives→ The Data-First Cascade Effect: Digital transformation follows aerospace assembly sequences - data quality and infrastructure must precede AI deployment, creating predictable transformation timelines and success metrics Innovation: Applying aerospace systems engineering methodology to organizational transformation - treating culture change, digital infrastructure, and stakeholder alignment as integrated system components with defined interfaces, requirements, and failure modes. First systematic approach to engineering human ecosystems with spacecraft-level reliability. Strategic Application: Any mission-critical ecosystem facing simultaneous pressure for speed, cost reduction, and performance improvement. Particularly powerful for regulated industries, defense contractors, healthcare systems, and infrastructure organizations where failure isn't an option.Strategic Reframe: The most adaptive ecosystems will shift from asking "How do we manage organizational change?" to engineering the question: "What are the mathematical interface specifications for human-system collaboration at ecosystem scale - and how do we systematically design predictable behavioral outcomes using aerospace-level precision rather than hoping for emergent organizational alignment?"The Hidden Revolution: Erikson reveals the birth of "Human Systems Engineering" - a new discipline treating human ecosystems as designable systems with engineered interfaces, quantifiable performance metrics, and predictable behavioral outcomes. Organizations that master this approach don't just transform faster; they engineer a sustainable competitive advantage through systematic human-system integration.Guest: Carol Erikson, Founder & President, Erikson Mission Solutions | Former VP Digital Transformation, Northrop GrummanHost: Marco Annunziata, Co-founder, Annunziata Desai AdvisorsSeries Hosts:Vikram Shyam, Lead Futurist, NASA Glenn Research CenterDyan Finkhousen, Founder & CEO, Shoshin WorksEcosystemic Futures is provided by NASA onvergent Aeronautics Solutions Project in collaboration with Shoshin Works.
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    43 min
  • 105. The Space Manufacturing Revolution That Changes Everything

    105. The Space Manufacturing Revolution That Changes Everything
    Sep 17 2025
    Many ecosystems fall short of their full potential because they're designed around Earth's limitations. The revelation? Gravity isn't just a physical force—it's an economic barrier costing America trillions in unrealized breakthroughs across semiconductors, pharmaceuticals, and defensetechnologies.While ecosystem architects optimize terrestrial manufacturing, they overlook a fundamental constraint: Earth's gravity creates atomic-level defects that make perfect materials impossible. Lynn Harper (NASA InSPA) and Dr. Dan Rasky (SpaceX Dragon heat shield inventor) reveal the mathematical reality: microgravity manufacturing achieves 90% yields where Earth struggles to reach 5%—a 1,800% performance gap that redefines competitive advantage.Paradigm Shifts:→ The Seed Crystal Revolution: Space doesn't replace Earth manufacturing—it creates "perfect" molecular templates that unlock Earth's potential. One space-grown crystal can seed millions of perfect Earth products.→ The $2 Trillion Gravity Tax: Every semiconductor, pharmaceutical crystal, and advanced material manufactured on Earth carries atomic-level defects. Space manufacturing eliminates this fundamental limitation.→ From Quantum to Human Impact: First mathematical proof that microgravity improves material organization at every scale—from atomic structures to human tissue engineering.→ The 10X Cost Paradox: Metric-based space contracting delivers 10X cost savings vs traditional aerospace development—making space manufacturing economically inevitable.Ecosystem Impact:→ United Semiconductor: 5% Earth yield → 90% space yield in identical conditions → Merck Keytruda: First uniform cancer drug crystals achieved in microgravity → 7.4 miles of commercial ZBLAN optical fiber: Breaking all world records for performance → 80% of 500+ space-manufactured crystals outperform Earth equivalentsThe Innovation: NASA's InSPA program demonstrates systematic superiority across materials science, proving microgravity manufacturing isn't experimental—it's the next industrial revolution. Combined with SpaceX's reusable transportation breakthrough, space manufacturing transitions from science fiction to economic reality.Strategic Application: Any ecosystem dependent on advanced materials—from quantum computing to personalized medicine—can achieve unprecedented performance by incorporating space-manufactured components or seed crystals into terrestrial production.Strategic Reframe: The most competitive ecosystems will shift from asking "How do we optimize Earth manufacturing?" to understanding: "Which materials require space perfection to unlock their full potential—and how do we architect hybrid space-Earth production systems?"The question isn't whether this transforms manufacturing. The question is: Will America lead this ecosystem transformation, or watch others capture the trillion-dollar opportunity?#EcosystemicFutures #SpaceManufacturing #Microgravity #NASA #MaterialsScience #SpaceEconomy #InnovationGuests: Lynn Harper,Strategic Integration Advisor, ISS National Laboratory | Co-founder, NASA InSPA PortfolioDr. Dan Rasky, Senior Scientist, NASA Ames | SpaceX Dragon Heat Shield Inventor | Co-founder, NASA Space PortalHosts: Marco Annunziata, Co-founder, Annunziata Desai AdvisorsDyan Finkhousen, Founder & CEO, Shoshin WorksSeries Hosts:Vikram Shyam, Lead Futurist, NASA Glenn Research CenterDyan Finkhousen, Founder & CEO, Shoshin WorksEcosystemic Futures is provided by NASA Convergent Aeronautics Solutions Project in collaboration with Shoshin Works.
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    1 h et 6 min
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