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=Disclaimer=
#REDIRECT [[OSE Book One]]
This is an entrepreneurial approach. The Open Source Hegemony. Enter at your own risk - content may be offensive to those satisfied with the status quo. If you read this, you may never see the world the same again.
 
=Chapters=
*[[Foreward!]]
*Main - [https://docs.google.com/document/d/12v-keaJeZvdZ-uong3l9ww2NaS1-3eh7vbOf0Z6McoA/edit]
*Open Source Microfactory Chapter -[https://docs.google.com/document/d/1SQQ1v47bODnPC0fR6xTU9RwJHeLfhK7HovvMGANZwPc/edit]
*OSE Campus and City State Infrastructures - [https://docs.google.com/document/d/17fwoQVN1xXnaygsWYc36yr15DWIrXUq2dkS4meTItxQ/edit]
 
=ToC=
=[[Foreward!]]=
'''Key Points:''' This book treats the perennial question of making a better world, and is an applied experiment that also aims to include you.
 
'''Summary:'''
*Goal is to train 10 million movement entrepreneurs over the next 80 years. That is 0.1% of the [[World Population]].
*Open Source Ecology is an applied experiment at lowering the barriers to peace.
*
 
=Chapter 1 - State of the World=
*State of the world and emergent trends. In what ways are things improving vs not. What the current institutions look like, how they got there, and what is now disrupting them
:*'''The Human Condition'''. The human mind and human capacity. Mainstream and status quo. Outliers. Atrocities + [[Political Ponerology]]. Superpowers. Peak performance. Augmented humans. Positive psychology. Humanistic Innovation - where is progress of humanity compared to technology? [[Self-Determination Theory]]. Logos-pathos-ethos. Timeless wisdom for a healthy lifestyle. [[Logical Fallacies]].
:*'''Model Communities''' - from Quatar to Gaviotas, Walden and Garden Cities of Tomorrow. + work of futurists. City States. Lieberland, Seasteading (new book and project), Titus Gebel - Private Cities; Settling Mars, Microstates and borders. Dissolution of borders. Small state republics. [https://docs.google.com/document/d/12v-keaJeZvdZ-uong3l9ww2NaS1-3eh7vbOf0Z6McoA/edit#bookmark=id.9pjcg83whlf7]
:*'''Improvement vs demise assessments''' - survey of loudest voices and reconciling them. Technoutopians. Environmentalism. Ecology. Science fiction. Aliens.
:*'''Economy''' - Distributive Enterprise vs Centralized Economy. Size of 3 sectors and industries. Institutions for enforcement of scarcity thinking: patents, legal structures, education, military, monopoly. Gini coefficient is improving - connection to open source information sharing? Enclosure movements through history - from land, to ideas; writing; internet; intellectual enclosure. Effective management. Scale of economic activity - small is beautiful. Slavery to liberation with the machine and back. From goods to services to Experience Economy - the latter is where OSE dwells. [[ZMCS]].
:*'''Management'''. State of art management practice. How to design an organization. Scale of organizations (Schumacher).
:*'''Money systems''' - History of money. Who gets to coin money. Requirements for new money (connection to value, ability to measure, abundant vs scarce money?), and does cryptocurrency meet these? Gilder= measuring stick is corrupt; $5T currency trading - what does it mean? Up to open source money = bitcoin. Impact of cryptocurrency.
:*'''Tax'''. Power to tax. History of taxation. Flat tax. Appropriate level of tax - best practice. Tax and blockchain.
:*'''Education''' - Acton academy; Transition from employee to entrepreneur. Augmented learning for Augmented Humans. Education Debt.
:*'''Health''' - Healthy lifestyle. Atlas. Startup clinics. Open source diagnostics + medical equipment. Telemedicine and Robotic surgery.
:*'''Production''' - proprietary, scarcity-enforcing production, assisted by legal apparatus. Abundance 360 misses the point of artificial scarcity creation. Product Development - modularity and open source. Food and other product miles and transportation.
:*'''Governance''' - Politics follows money, not the other way around - take this point home because my personal observation leads me to believe that very few people understand this. Opportunity to create new money - rebooting civilization. Best governance models. Unresolved issues of governance.
:*'''Time Scales''' - Time scale of the corporation. Lifetime. Long and short term thinking institutions. Immortality.
:*'''Scientific Innovation''' - Open Innovation and Current Enclosures.
:*'''Information''' - Who owns the internet. Information enclosure in silos. Systems thinking. Information theory.
:*'''Technology''' - Technics and Civilization. Tech ages in history. Technological Determinism. Technological Nondeterminism - Second Industrial Divide.
:*'''Freedom.''' - Institutions fostering freedom. Free and Un-Free States. Evolution of Slvery. From enclosure of land, to freeing the slaves, to debt slavery, to buying out at the bottom.
:*'''Population''' - and the Kardashev scale.
:*'''Energy.''' Oil revenue vs solar revenue - 20 days of solar income to the Earth and that is 500 years of oil reserves. Oil is a blip. Hydrogen vs batteries. 300W solar panel is worth $1500 to 80% +.7*750 = $2000, and costs $100. 20x return on investment, payback in 1.5 years, and emergy payback of 2.5 years. [[PV Payback]].
*[[1-References]]
 
=Chapter 2 - Open Source Background=
*Part I is the background: (mastery of Benkler, Lessig, EFF, up to Bitcoin)
*Chapter 1 - What is open source? Expands on the business model of open source to clarify what is possible. What unique value does open source bring?
:*'''Linux'''- collaborative model and why it works (summary of Success of Open Source). And OSLS experience - Linux won the battle. Has it won the war? Is distribution of wealth happening?
:*'''Linux Equivalent for Earth''' - if success in OSS, does this apply to the economy in general? Is this a natural part of economic evolution?
:*'''Question of Kardashev Scale Proportion''' - are we doomed to proprietary development for the rest of human civilization, or will we break through to cooperation? Right now OS does not exist. Particular character type in OSS - very smart, very competitive, and antisocial
:*'''Patents''' - what is the role of patents? Critical insight - the artificial scarcity of patents - SEMINAL - [https://docs.google.com/document/d/12v-keaJeZvdZ-uong3l9ww2NaS1-3eh7vbOf0Z6McoA/edit#bookmark=id.fkoak2eh7wkc]. Do patents accelerate innovation. Debunking "there are just as many cases one can cite where patents have increased innovation as cases where patents have stifled innovation".
:*'''Open Collaboration vs Fake Open Source''' - the hegemony of open source. Discuss the mindset, and also the practical issue - it takes time to document. But tools are there to do that easily today - wikis, blogs, and social media can be used for this purpose.
:*'''NC enclosure''' - follows the appropriation senselessness of patents
:*'''IP''' Trademarks, patents, CC, OSHWA, FSF to OSI rift. Fake open source. Intentionally vs Effectively Closed Source - understanding the distinction opens up possibility of collaboration.
:*'''What is open source?''' Limits to it - effort of good documentation - and What is distributive? Ex of FabLabs to Local Motors.
:*'''DRM'''. And what is the role of DRM? Big brands vs many producers making a living? EFF analysis and response.
:*'''OSPD''' - what is the possibility of changing the world to open development. New literature of PD is modular, open source PD (refs). Something everyone talks about but does not happen in practice:
:*'''Extreme Manufactuting Contract-First Design''' - core of OSE's method. Collab with Wikispeed.
:*'''Countering hegemony by GRAT''' - Generally accepted as true - transparency; distribution of wealth
:*'''Kindergarten.''' Learning to share in Kindergarten, and once after high school, we learn the opposite.
:*'''Education.''' Social order of education: working for someone vs being an entrepreneur in a world of improving technology
:*'''Economic freedom of OS.''' Giving freedom produces a higher chance that freedom will be returned by good will. And for the defectors? The guilty- must be punished. Clarity on OS distributive goal (economic freedom as motivator) vs enclosure via open source. Freedom includes economic freedom.
:*'''Blockchain.''' Blockchain - and implication for organizations. The economy is still the substance under the blockchain.
:*'''Competitive waste''' - removing competitive waste - by design - for increasing efficiency.
:*'''Open source money''' - Bitcoin is an open source alternative to the closed-source currency, whose algorithm has limited accountability. Bitcoin rules are documented, as opposed to central reserve.
:*'''Revolution.''' The revolution must be open source - otherwise you are causing trouble or fooling yourself. Efficiency. Max empowerment.
:*'''[[Open Source Business Models]]''' - a survey
:*'''[[Pull Requests in Open Source Hardware]]''' -
 
=Chapter 3 - War=
*Chapter 3 then moves into one particular pain point and sector - war and conflict. starting with each of us.
:*The unresolved issue of conflict. Statistically, it's improving, and we have at current trends about 100? years before the end of war.
:*History of war. Its nature and its causes. von Clausewitz + other historians. It starts with each of us (Juice Rap News).
:*Conflicts are resource conflicts. Religious war is 3%.
:*Prerequisite to societal evolution is material security. 
:*Class warfare. Historical competition between materialism (dialectical materialism) and capitalism.
:*War and language - [[NVC]]
:*Local economy in the Global Village: towards a peacetime economy. How to remove resource conflict issues by design. Global trade is an option, not a necessity. It's a question of size. Modular design of economy, not central.
 
=PART 2. Chapter 4 - GVCS=
*This introduces the Global Village Construction Set technologies: Civilization Starter Kit.
:*'''GVCS Intro''' - requirements for selection in terms of a complete economic base with production of essentials, trade for luxury goods, and provision of a modern standard of living. Only imports are specialized non-abundant resources.
:*'''Import substitution''' - rubber tires; dandelion root resin; canola oil hydraulic fluid. Oil from wood.
:*'''Rocks, sunlight, plants, soil, water.''' If you really think about it...
:*general concept and practice. Design for basic unit of robust economic organization, which is also a foundation for larger end
:*'''The 50 Technologies.''' Going through the list by sector, required performance specificationss, salient features, and product ecologies
:*'''Product ecologies''' - housing, cars (90% of gasoline is light duty vehicles [https://www.eia.gov/energyexplained/index.cfm?page=gasoline_use]), energy, food & ag, manufacturing, primary sector - pushing the limits to plastic, metal, composite, glass, ceramic from local resources to the scale of a village.
:*'''Current Status''' - 6 prototyping milestones
:*'''Future Milestones''' - 1000 PhDs and several Nobels
:*'''Specific product milestones and status - current and past prototypes, transitioning now to packaged products
:*'''Development Model''' - modular design. Breakdown + parallel. Dev Team. Dev Template + Wiki.
 
=Chapter 5 - OSE Campus=
*Intro - to be built as the replication model, general blueprint with specifics according to place
*Chapter 6 focuses on what new critical infrastructures could look like - a practical proposition of how we keep house on planet earth to meet our needs without compromising our natural resource base. We build on industry standards and improve upon them to build an antifragile and regenerative technosphere. The point here is that we are not proposing theoretical infrastructures - but ones that we are planning to build. Also the  basis of the OSE enterprise model.[https://docs.google.com/document/d/17fwoQVN1xXnaygsWYc36yr15DWIrXUq2dkS4meTItxQ/edit]
:*'''Model Community''' - a model community, organized most closely to what would be a modern university campus, but adding the Research Park, Institute for Advanced Studies, and a Eco-Indusrial Park. It's a contract community like a campus, but producing a real life in terms of using its own natural life support systems. Peacetime economy. Campus as small state republic - with 150 people, it's a real village. Land Use Plan.
:*'''Built Environment''' - living roofs, biotecture, modular workshops. Aquaponic greenhouses
:*'''Agriculture''' - Aquaponic Greenhouse + perennial polyculture-basis for regenerative agriculture. Miracle Orchard. Terraforming for regeneration.
:*'''Energy''' - solar hydrogen compressed gas for fuel, cooking, and cars. Charcoal for gasifier fuel. Community biogas.
:*'''Solar Hydrogen''' - cars with hydrogen backup, no oil for travel. Unimog like car-tractor.
:*'''Manufacturing''' - PV manufacturing, some semiconductor devices such as laser diodes, IGBTs, etc. Solar silicon from sand. Microfactory.
:*'''Natural materials''' - Open Source Materials Production Facility -  bioplastic, rubber, charcoal, lime, insulation (open sourc
:*'''Freedom''' - and microstate entrepreneurship. 10,000 OSE Campuses. The Campus Tax - what do taxes pay for? What is the future of tax with blockchain?
:*'''Lifestyle Engineering:''' Work-Life Integration and Buying out at the Bottom. The Perfect Day Formula. The American Dream is only $50k, not $500k.
:*'''Social Security'''. The capitalist [[Kolkhoz]] in jest.
 
=Chapter 6 - Enterprise==
*How we reach a tipping point towards an open source civilization? From our simple calculation - it takes about one trillion dollars of economic activity to reach the tipping point. What is a potential roadmap for getting there? How do we innovate on a modular growth model that can retain cultural integrity and avoid evil?
:*'''The model''' - an ecosystem that reaches $840B - that ecosystem is in its infancy (one person does fiber, another HTML, another TCP, etc in internet - what is it for hardware?
:*'''Roadmap'''. XM business model. Viral R&D adoption with OSES. Design for Defection. Modular Developer model of independent agents. '''[[OSE Enterprise Milestones]]'''.
:*'''The Framework''' - a global repository of standards. Global repository of design. Avoiding huge amounts of competitive waste. Getting to Self-determination. Some already exist. Others are to be made - degeneracy of form. Eamples: ball bearing, lumber, etc.
:*'''Extreme Manufacturing Business Model''' - products in the Experience Economy. Basic Model. Limit of Applications.
:*'''Overall Business Model.''' Teaching campus - immersion up to technical college to university. Production Campus. Largely training events, with some kits.
:*'''The Open Source Everything Store''' - collaborative product packaging.
:*'''Buying Out at the Bottom''' - Revisiting the American Dream.
 
=Chapter 7 - Conclusions==
How do we use current knowledge to make a better world?
*'''The Kardashev Scale Dilemma''' - big question - what happens to the future of civilization, when we know that it will grow way beyond the current limits? From first principles - population is yet to start growing. We hit the limits of fossil fuels, congestion, pollution - now as we clean up the environment and go solar - are we ready for the next population explosion? What the 'experts' say.
*'''Shop Class as Soulcraft Meets the Singularity.''' The new God and return to the secular state.
*'''Forever Young.''' Infinite life extension by leaving a legacy.
*'''What Next?''' Life is as exciting as ever. It is up to us. Next update coming up in a decade.
*'''Get Involved.''' - if you wan to do this and you agree to the approach here, join this work. We're hiring. Join a build to see if this is for you. Apply to be an OSE Fellow. Join OSE Boot Camp. Join OSE Developers. OSE Fellows. Internships. Workshops. Extreme Builds. True Fans. Summers of Extreme Design/Build. Invite us for a lecture. Invite us to run an Extreme Build. Participate in The largest build events in the world - 100 builds in a single day. Quit your job. BOAB.
 
=8 Appendix==
*Appendix A. Development Process in Detail. For those who want to understand how open economic development can look like - and to get involved in it. How do we create massive parallel development protocols for open source product development? Using wikis and cloud collaboration tools, how can we leverage collective intelligence? Wiki and Key Pages + Templates
*Appendix B - Process Management. Technical, organizational, enterprise processes.
*Appendix C - Decade Development Plan - Roadmaps and Development Projects.
*Appendix D -
 
=Packaging for Book Publishing=
*'''Conversation:''' Book - Blog Post series - FB based on blog posts - Podcast based on seminal thinkers in the book - Book/University/Lecture Tour - Forum is Seeded by Development Priorities and Roadmaps
*'''Direction and Self-Direction''' - the Book is intended to provide a decade-long program of development that addresses completion of the GVCS as a starting point - clear delivery of transcending artificial scarcity. This must definitely culminate with at least one facility that practices this - the first Global Village with a PV production line to achieve [[Kardashev 1]]. How is it to be structured? As a Campus, using what we have already. Build Infrastructure accordingly.
*One option is a sea settlement in a tropical country, such as Seasteading, or Belize. But it must be realistic and replicable, meaning that we must create sufficient meaning and purpose within the community beyond that of a retreat or disneyland economy. The strong leadership must prevent a unifying and realistic vision - but the options must be open for how the vision is realized. OSE already has many of the Construction Set philosophies, and we are currently implementing the first construction set - the small MicroFactory.
*'''Forums:''' As an outcome of the book, clear direction must be provided to Forums and ongoing discussion.
*'''Immersion:''' This must be backed by a decent on-site program - 6 month internships, 2 week OSE Boot Camp, regular workshops in different locations,
*'''Website''' - Good website for workshop registrations. Build Yourself. Build Your World. OSmicrofactory.org. Organizational infarstructure for admin.
*'''Podcast''' - it just attracts interest and high level discussion.
*'''The OSE Insider''' - digital for those who can't make it onsite - a  how to run a successful Extreme Manufacturing Enterprise + online monthly webinar - based on the book chapters a
*'''OSE Boot Camp.''' 2. 12-20 people per year.
*'''Immersion Training'''.
*'''Regan Arts''' for graphics and publishing.
 
=Existing Materials=
*GVCS 50 - Energy and Microfactory chapters - [https://docs.google.com/document/d/1SQQ1v47bODnPC0fR6xTU9RwJHeLfhK7HovvMGANZwPc/edit#]
*Massive parallel breakdown for large builds and basic technique - [https://docs.google.com/document/d/1SQQ1v47bODnPC0fR6xTU9RwJHeLfhK7HovvMGANZwPc/edit#bookmark=id.73nopqxd0t7i]
*Transcending Brook's Law - [https://docs.google.com/document/d/12v-keaJeZvdZ-uong3l9ww2NaS1-3eh7vbOf0Z6McoA/edit#bookmark=id.yhgnt6pe1tc3]
*OSAT - [https://docs.google.com/document/d/12v-keaJeZvdZ-uong3l9ww2NaS1-3eh7vbOf0Z6McoA/edit#bookmark=id.z0fas8ujvn3y]
*Per capita income - [https://docs.google.com/document/d/12v-keaJeZvdZ-uong3l9ww2NaS1-3eh7vbOf0Z6McoA/edit#bookmark=id.z0fas8ujvn3y]
*Richest people - [https://docs.google.com/document/d/12v-keaJeZvdZ-uong3l9ww2NaS1-3eh7vbOf0Z6McoA/edit#bookmark=id.2oe7xdtu14y9]
*Scarcity creation via patents - [https://docs.google.com/document/d/12v-keaJeZvdZ-uong3l9ww2NaS1-3eh7vbOf0Z6McoA/edit#bookmark=id.fkoak2eh7wkc]
*Microstates - [https://docs.google.com/document/d/12v-keaJeZvdZ-uong3l9ww2NaS1-3eh7vbOf0Z6McoA/edit#bookmark=id.9pjcg83whlf7]
*Success of open source - [https://docs.google.com/document/d/12v-keaJeZvdZ-uong3l9ww2NaS1-3eh7vbOf0Z6McoA/edit#bookmark=id.dbh5hs74m12l]
*Podcast - [https://docs.google.com/document/d/12v-keaJeZvdZ-uong3l9ww2NaS1-3eh7vbOf0Z6McoA/edit#bookmark=id.9se7235f06o1]
*Possibility of Distributive Enterprise - [https://docs.google.com/document/d/12v-keaJeZvdZ-uong3l9ww2NaS1-3eh7vbOf0Z6McoA/edit#bookmark=id.awa24ddqzena]
 
=Notes=
*Explain that politics follows the economy. Not the other way around. No, really.
*Add open source Waterjet to system. Needs high pressure hydraulic power SMEs to be added to the team.
 
=Book Log=
*[[Book Log]]
 
=Potential Editors=
[[Potential Editors]]
 
=Notes=
*O'Reilly - [https://www.inc.com/magazine/20100501/the-oracle-of-silicon-valley.html]
<html><iframe src="https://docs.google.com/presentation/d/e/2PACX-1vTTc27t6wLThSPaqu81yzpPkJhFkMJLCvvJhm0s3KwqikzViqqsiUzs4VRp8u89D_Y521NZ7HKyi_2A/embed?start=false&loop=false&delayms=3000" frameborder="0" width="960" height="569" allowfullscreen="true" mozallowfullscreen="true" webkitallowfullscreen="true"></iframe></html>
 
[https://docs.google.com/presentation/d/1mYpfR2xfmEZJaAKVybRH12YxglSYJrQ4YS9IAWPyBc8/edit#slide=id.g2ceb325cf7_0_9 edit]
 
=Strategy=
 
==General==
Book-'''Podcast''' with Notable Book Assets-Book Tour/Workshop Tour-SME Recruiting of Key Assets-'''Visiting With''' Key Contacts for Collaboration Development-'''Dedicated Project Visits'''- '''Entrepreneur Immersion Training'''-Book Contributions Crowdsourced for Society Painpoints on top of the mainstream published views-Business Dev Design Sprints-Design Guide Book Sprints-FreeCAD Workbench Design Blueprints
 
==Specifics==
As a blueprint, the book can be used in these ways:
#Book can be refactored to identify specific SMEs. Then recruiting team can search for the SMEs, invite them, onboard them. OSE Dev Team works with SMEs. Summer program calls upon SMEs for a 1 hour Q&A.
#Book is refactored for proposals (product ecology designs with basic business models), student research projects (masters and PhD), and operations plans for various enterprises. Enterprises are tested as one month [[Dedicated Project Visits]].
#Outcome of book is an advanced team ecology for development teams - for regular Design Sprints.  A new FreeCAD in 1 Hour video would be required to get people to learn FreeCAD in about an hour.
#Outcome is an [[Business Development Design Sprint Protocol]] and a [[Book Sprint Protocol]].
 
=Machines and Primitives=
 
<html><iframe src="https://docs.google.com/presentation/d/e/2PACX-1vQPdgqOL5Je_YkFf43eo9IShCcfom0yWkpH2NkODeIj1T4fh303ig4Ny9Maurr8Nc38hvuGWIPJyCG8/embed?start=false&loop=false&delayms=3000" frameborder="0" width="960" height="569" allowfullscreen="true" mozallowfullscreen="true" webkitallowfullscreen="true"></iframe></html>
 
[https://docs.google.com/presentation/d/15ai0IWG8uIi82E3H0a1geCrl5kKBqTg5bibvh_fRXJI/edit#slide=id.g2d05992bc3_0_12 edit]
 
=Positioning=
*'''Overarching Themee''' - this is an improtant document, a manifest of values and direction. It must be comprehensive and far-reaching, but it must be agile. New contributors always bring new information. Together with experience - direction of execution may shift - but the values and vision should not. The program allows for agility to adapt to new information - so that the document does not decrease in relevance over time.
*'''Introduction'''  - frame it around the economy of access. Could start with TED Talk. A new civilization for $10k. Induction furnace + 3D printer, and we are good to go. $2k induction furnace. Scrap metal.
*'''50 Machines''' – machine groups.
:*Product groups + insights about other companies to give perspective. Such as hydrogen vs electric, biomass vs electric, solar tranisition (cheap PV), cars (the superefficient single commuter), batteries towards [[ZMCS]] - nickel iron?
:*IoT Housing 2.0 – microfactory, energy plant, food production aquaponics in an energy/manufacturing/food production internet.
:*Materials Production Facility – Biofuel + biomaterials and carbon negative concrete. Charcoal, insulation, bioplastic, semiconductors. Discuss zone refining of silicon. 8000 sf produces biofuel, concrete, steel, insulation, charcoal, induction glass furnace, bricks, lumber, and semiconductors.
:*Energy Internet – excess PV house or microfactory power goes to producing hydrogen. Compressed biogas runs cars. Nickel iron batteries are the Power Wall 2.0 based on lifetime design. insights on biomass vs electric vs hydrogen vs compressed methane
:*Aquaponic Greenhouse – and Farmbot for seeding, Drones for planting, and last mile delivery of produce.
:*Agriculture – ROS + heavy equipment
:*Advanced - aluminum from clay and SiO2 sand to PV. Just needs some energy from the Open Source
*'''Ramifications''' - Appropriate Technology, End of Work, Abundance or Existential Crisis, Singularity, ZMCS, Experience Economy, Sharing Economy, New Commoners, New Contracts (smart contracts), New Money (blockchain)
:*Integrating all known trends into a cohesive picture, paving the way for OSE implementation
:*Becoming the greatest unemployer in the world. Boss employee relations. '''Critical''': statistics on demonetization? Statistics on 'employment'? Is the Paradox of Capitalism being realized?
*'''How to Get There'''
:*Development Process: OSPD, Extreme Design, Extreme Manufacturing, Extreme Recruiting
:*OS Microfactory with Energy Internet. Internet of production and logistics. Remote Control Print+automate harvest+UPS truck.
:*How OSE is levearaging crowdsourcing, singularity, automation, AI, 3D printing, MOOCS, Buying out at the Bottom (BOAB), ZMCS, Experience Economy, Sharing Economy, open source microfactories, smart contracts, and crypto coins to create the open source economy.
:*$10k + Civilization Starter Kit DVD by 2029. $100k upsell for the Quick-Start Package. $1M for a new small scale republic. Freedom is not for sale.
 
=Appendix=
*P567 MJ24
*Legal structure for optimizing the commons: infinite scalability of the open source economy
:*Employees vs partners
:*Franchise model
:*Owner operator model + startup
:*Value differentiation - open supply chain, open design, open enterprise, open training - for a Distributive Enterprise.
:*Land based university model of the commons
:*Triple + 1 revenue model - education immersion, production during training, XM workshop - product + tuition
:*Open enterprise model of commons marketing - swag, infoproducts, infofacture, kits, products
:*Risk - Amazon. They will go open source.
:*Scale of University Education sector
=Appendix 2=
 
=Abstract for Extreme Development chapter=
Integrate all human knowledge on collaborative development and relate to OSE’s Extreme Development – Extreme Design and Build. Make a case for our work based on known techniques that are already known and prior literature:
 
*Wikipedia – unmanaged contributions improve themselves, a la Clay Shirky, Here Comes Everybody
*Bold – crowd funding, crowd design, incentive prizes – HeroX, X Prize. MTP by Diamandis.
*Appropriate technology – Gandhi, Schumacher, Rifkin – Zero Marginal Cost Society (ZMCS)
*Flexible Manufacturing – Piore
*Rifkin – ZMCS, referring to Adam Smith et al on the Dilemma of Capitalism. Supported by 6Ds of Diamandis, but need some numbers to verify
*Kurzweil – Singularity when computer power overpowers
*Moore’s Law
*Law about doubling of installed PV reduces cost by 20%
*Modular, open source design – the latest in Product Development Literature
*Going from 13% to 40% overall energy efficiency – Rifkin
*Even Amazon admits that the future of its Fulfillment Centers will be Microfactories
*But open source, collaborative is key- as that can be the balancing force. Discuss fake open source – Tesla?
*Collaborative commons will eclipse Capitalism by 2050
*FabLabs – digital fabrication towards the open source microfactory. Many organizations have proposed the microfactory vision. However, their proprietary nature  introduces competitive waste, such as the LocalMotors enterprise – which means it will deliver only a part of the zero marginal cost promise. Other efforts, such as OpenMotors – rel
*Aggregation platforms will survive, such as Uber, or Amazon logistics of same day product delivery. But rest will enter zero marginal cost regime.
*OSE Value Add – Extreme Builds – very efficient. Combines crowd build and digital fabrication
 
=Links=
[[Book Log]].
 
=Text=
 
 
 
 
 
ToC
 
Foreword
My history. Poland. Until I discovered...that I was useless.
Introduction
Society’s infrastructures and why they are important: physical, and information physical
Assessement of abundance and doom
Abundance, Homo Deus, climate change, diseases, pollution, war, poverty. History of enclosure (ZMCS + TRAGB)
Numeracy, with feelings. You have to understand basic principles, and graphs will lie to you if you let them.
Understanding possibilities - bad chemicals to good chemicals, evil process to good process, disintegrated to integrated, closed to open,
How to create abundance: Societal issues related to the material base vs. information economy vs need to evolve as humans
GRAT Best writing and perspectives on what does work in society today
The limits of dematerialization: limit of economy is not  information but information physical, and the essential question of lifetime design. Scarce resources and scarce information. In the limit, information is abundant (open source)
Ethics of scarce information. Perversion of the ‘open letter’. Patent system and proprietary development. Nobody has shown to date that patents increase innovation.
Open source. What is it? Difference between open source hardware and free-design hardware
Why CC-BY-SA coercion is libertarian. Say what? Revolves around preventing enclosure.
Difference between open source and free/libre
How GPL can protect you when you break DRM?
The GVCS: What is it.  Why the experiment? Applications. Resilience. Disaster. Space. World Fix. GVCS top 12.
How the GVCS was selected. Metrics: performance. Minimum Set for Completeness. Substitutability. Scalability. Modularity. Lifetime design. Ecological. Universal Constructor.
Approach: machines, derivative machines, products of machines, and systems. Product Ecologies
The GVCS Experiment: we can make the road only by walking. Choice is not set in stone, and one size will not fit all.
GVCS
About The Machines and Products of the Machines
About The Derivative Machines
About The Systems
About Product Ecologies
Housing
Food
Energy
Transportation
Manufacturing
The End State
End End State
Getting There - $1B
OSE Appropriate Technology
History of AT
OSE OSAT
OSE Specifications
Dunbar scale. Village of tomorrow is where you and your clan live. The city is a collection of Global Villages
Open Source
Ecological
Human Scale
Simple, Scalable, Modular
Distributive. Distributive Enterprise.
Pattern language and construction set
Top 24 icons
120 Icons for Civilization - parts and mechanisms
Technological Recursion: down to silicon from sand and aluminum from clay
Applying OSE Specifications to any technology
Product Ecologies: living and working ecosystems
The cookie cutter development for consumers vs. the live lifestyle. Gummit and Admin lifestyle vs R&D&G lifestyle of constant growth.
Towards Prosumers
Towards the OSE Prosumers
Different systems: house, microfactory, greenhouse, materials
Details of complete ecologies - see Appendix
Development Approach:
Agile: Crowdsourced and Blockchained Heavyweight Product Management. OSPD. Industry standards for product development.
100x on Design, Build, and Organization.
Extreme Manufacturing. 6 milestones reached.
Design & Build
Organization and enterprise. We built machines...and then we sold them. HR, Operations, Marketing. Automation, smart contracts, smart money.
Movement Entrepreneurship and solving pressing world issues
Startups and Finance Caital
Generally regarded existential risks: environment, war, poverty, corruption, wealth disparity, out-of-control technology
Solution: decentralization, transparency, integrated systems design, ethics, eco-technology, personal growth (general semantics, language, reason and spirituality)
Diffusion of Technology
Historical Trends of diffusion
Linux and Microsoft
What is different today, and what needs to happen still (evolution, distributive enterprise)
Scalability. MTP + Execution
Conclusion
Appendix
The specifics of OSE OSAT - the full OSE Specifications
The 50 Machines
Derivatives of the 50
Systems
Product Ecologies
Open Source Minimal Microfactory Product List (3DP, CNC Circuit Mill, and Filament Maker, and MicroPower Tool Construction Set)
Forward!
Here’s What we Propose - motivate those who have an open source ecology mindset. Align the contributors
Creating Civilization from Scratch - 1000 Global Villages
Enterprise Back End
Product Development
Scaling Model
 
 
Background Research
 
The End State
 
End State -  Beginning - Solving the Compiler Dilemma - Narrow Compiler: the Open Source Microfactory - Broad Compiler: the Distributive Enterprise and the Incubation Support for Open Source Enterprises.
End State
It takes only appoximately $1B per year to change a sector of the economy with open source development techniques. At least that is what Linux did. Linux currently receives $1B of software contributions per year. And linux and open source now dominates these major parts of the information economy in terms of market share: Cell Phones (80%, open source Android operating system); supercomputers (99% run Linux); servers (Apache open sourcce server is 46% of the market share with the next closest at 20%). Linux is only 3-5% of the desktop computer market share, with Microsoft being the great majority. However, the growth curve of the Linux market share appears to be in the deceptive exponential growth phase -
Few people know it, but open source runs the information economy. Given that there are 8B mobile devices, and about 2B computers - then open source software is powering about 60% of the computing devices that people use.
 
The world of the information economy is open source - though the majority of the hardware world is quite proprietary.
 
Based on the model for computer software, we can model the rise of hardware. Here I make the proposition that by the time R&D of open source hardware infrastructures (homes, cars, agriculature, energy systems, etc.) reaches the $1B mark - the level currently enjoyed by Linux - then the economy will turn largely open source - just as the software economy today is largely open source. Linux started in 1991. OSE’s Global Village Construction set - an operating system for hardware - started in 2018, about 27 years after Linux. Today we are in the early days of open source ecology - the open source operating system for infrastructures.
 
Linux took about 20 years to attain the $1B annual development effort - with volunteers. Currently, Linux has 1400 full time equivalent volunteer developers. This is the model that we are adopting for OSE.
 
But the challenge for hardware is greater. We call it the Compiler Dilemma. While it is cheap to compile source code and run working programs - it is not cheap to compilethe source code of hardware - its design blueprints - to convert them to physical products. Electrons are cheap, but atoms are not.
 
In the software world, economic feedback loops of the software industry paid the developers for producing working code - now responsible for fueling large sectors of the economy:
 
From the Linux Foundation site -
Linux is the operating system for over 95% of the top one million domains
More than 80% of new smartphones sold run Android, which is based on the Linux kernel
All of the top 500 supercomputers in the world run on Linux
Most of the global markets run on Linux, including the New York Stock Exchange, NASDAQ, the London Exchange, and the Tokyo Stock Exchange
The majority of consumer electronics devices use Linux for its small footprint
More than 75% of cloud-enabled enterprises report using Linux as their primary cloud platform
Linux is the go-to infrastructure supporting the world’s ecommerce leaders, including Amazon, eBay, PayPal, Walmart, and others
 
We can in principle generate the source code for hardware inexpensively - the source code is design blueprints - which can be generated on a computer just as easily as software can be written - in terms on requiring no more than intellectual time and a computer powered by electricity.
 
For hardware - the challenge is compiling design into products: that is called manufacturing and production, which is typically capital intensive.
 
How to overcome this dilemma? The only way to overcome this dilemma is to provide economic feedback loops to the designers. In the computer world, software developers got paid by companies who wanted their product. In the hardware world, designers would also have to sell their designs. But because it is so expensive to compile the designs, there is a significant barrier to the development of working products, and to the resulting financial feedback loops.
 
This is a significant challenge, and it is a business problem. While a software guy can test their program and sell it - the cost for a hardware guy is higher.
 
This is where a company like Open Source Ecology - operating in the civic sector - plays a part. To succeed, this company must inherently develop not only the product - but the operations necessary to design, build, and test the products. Thus, an inherent part for any scalable open hardware project is that the project must develop its own operations - and elements related to running a typical enterprise with many moving parts.
 
That is the role that Open Source Ecology intends to play - to provide the design, build, testing, certification, and training for open hardware enterprises. The goal is nothing short of developing a scalable open source product development methodology - which would have a chance to compete as a free enterprise.
 
The success of open source hardware relies much more on a drive for entrereneurship rather than on a hobbyist effort. Because a hobbyist typically has another job so they can make a living. It is a core OSE belief that world transformation boils down to livelihood - what people do for a living.  And we believe in right livelihood, in that what we do has to connect to ethical practice - meaning that in our choice of livelihood - we feed whatever global politic corresponds to that livelihood choice. From the open source ecology perspective, we care most about livelihoods that lead to a distributed, decent(ralized) economy - which doesn’t leave anyone behind. That means that we care about the environment as well.
 
The critical question for OSE is how to reach the $1B mark. If it took Linux 20 years, then we are on schedule to deliver the open source hardware domination by 2028. There is a decade left. I’ll report back in a decade in Towards the Open Source Economy, Part 2 - regarding whether we got there. If we double every year, we will be 1000x larger.
 
Why Did Linux Succeed
There were a numbe of other Unix projects that failed. Why did Linus succeed?
The operating system worked. Likewise, OSE must produce a working product up front. Then optimize the whole. Hence, we work with broad systems that work - the larger the better - but to enable working system, they have to be minimal.
It was written from scratch. Likewise, all OSE products are taken from scratch, but don’t throw out the baby with the bathwater as they build on industry standards.
It was integrated - many moving parts - unlike other utlilites in GNU which were standalone. The integration - into an actaul working product - is a huge value. For OSE, the integration is key - we are proposing an operatinig system - not individual parts, just like Linux.
It was a decentralized effort.  But with heavyweight product management (linux approved all changes for a long time). Likewise, OSE uses Modularity to enable decentralization.
It switched to an open source-compliant license (free to use commercially). Likewise, OSE is open source to allow the next $1T economy.
Monolithic (what linux used) vs modular architecture did not seem to matter. OSE is modular, as it is more complex.
 
 
 
 
The Compiler Dilemma and 3D Printing of Practical Products
This
 
The Broad Compiler: Distributive Enterprise
 
This
 
 
 
 
Study of the System for Kindergarteners
 
Various Fictions of the Human Mind
If somee social  system is so complicated that a school child or kindergartener cannot understand it - then we may want to question why it exists in the first place. So let’s pass some systems through the Kindergarted Test - namely - the patent system, IPOs, the stock market, derivatives, country boundaries, newspaper and media, regulatory capture, taxation,political ponerology, and artificial intelligence as a potentially corrective force..
 
Startup Capital
Say you want to create the next trillion dollar enterprise sector. The typical route for world-impact projects is to invoke finance capital. The critical question for OSE scaling, through, it not about finance capital - but what resources that finance capital will buy. Thus, if we believe that you cannot buy the next trillion dollar economy - what can we substitute for finance capital? It is those resources that finance capital would buy.
 
Those resources are people, operations, marketing, education - and the like - all the ingredients of a successful enterprise. OSE’s approach to minimizing financial costs of scaling is to provide open access and knowhow to scaling. By open source documentation - how do we facilitate efficient oerations, accounting, hiring, marketing, and education, to name a few aspects of a successful business?
 
Open sourcing these aspects could lead to great efficiencies. Imagine having the best mentor in the world helping you out - you as an open source entrepreneur - to navigate through startup and success. OSE can provide a number of open resources to faciliteate this, such as: operation manuals, proven business plans, project management templates, part libraries for design, website templates, collaborative product marketing, and many other resources.
 
Let’s take a look at one scenario of the stratup costs of business that succeeds to the $100k-$1M/year level:
 
(case study of startup costs, tabulating BAU costs and Open Source Access costs)
 
Or an eneterprise that succeeds to the $10M-$100M level:
 
(case study of startup costs, tabulating BAU costs and Open Source Access costs)
 
The OSE approach is that thousands or millions of varied enterprises can start up at the above levels. A million $1M enterprises is a 1 trillion dollar open source sector - and  a chance to normalize the collaborative economy. For reference, there are 15M millionaires in the world. The more millionaires the better. Greed? Not necessarily.  A millionaire is someone who has assets of $1M or more. The nature of these assets is important. If the assets are used to serve others and make the world better, then that is a good thing
 
There are issues with finance capital. Finance capital is capable of propping up business and industries that do not grow on the virtue of their merit, but on the virtue of having lots of money thrown behind them. This is the dilemma of finance capital that we are trying to solve.
 
Ok, thus, what is the case for IPOs. Pros: money. Cons: lose control, need to meet revenue goals leading to short-term thinking;  and - a fundemental conflict of interest between investors and operators. The Investor’s goal is completely different than the operator’s goal. In sum, an IPO is “selling out” in the full negative sense of the word.
 
If trading volume matches and exceeds the size of global GPD, is there something wrong with this picture?
 
A case can be made that the thoroughly fucked up military industrial state is a result of short term thinking which may be attributed to the very structure of public corporations? First, what share of global revenue comes from publicly traded corporations?
 
Thus, get rid of IPOs, and replace that with the OSPO - the Open Source Public Offering, or Initial Coin Offering, or other smarter contracts.
 
OSPO. Just replace the financial requirements to those of long term goals, as well as full conrol by the company operators. That’s it.  Is that possible? We could try. This is a great assignement for a Juris Doctor thesis. Today, the IPO has specific rules. Those rules are not natural laws - they are plain human fictions. Simpy replace the existing fiction with a new one with a couple of tweaks. That way, we are retaining accountability: operators are accountable to their baby (business they created) - and the investors are there only to help, not to rule the world. Thus, the IPO clauses mandating profit maximization are gone, and the world becomes a different place. This is an idea worth spreading. Does it collapse today’s capitalism? No, it just makes it more integrated, fair, and accountable. If this means that the company cannot raise a lot of capital - that is good. There is a check and balance for its growth, so it doesn’t grow like a cancer - but expands only on its merit.
 
Capital In General
When raising capital (by taxation, IPO, or church tithes) - the question that one should ask is not how much captital is neede, but what are the goods and services that that capital will provide? To reduce those costs, we an ask, how can we prove those goods and services most efficiently? In order to reduce that capital requirement - ie, lower your taxes, or not lose control of your company through an IPO) - we simply ask - what is that capital buying you - and how does open source address lowering those costs?
 
Take taxes and county roads. If we were to develop an open source robotic road grader, then the maintenance cost of roads decreases.  We still need capital to buy and maintain a grader - but if open source lifetime design - can that cost be 10x less? So taxes go from 50% to a manageable 5% when extrapolated throughout the economy?
 
To achieve lower cost, we must ask systematically what the real costs are, and how open source efficiency reduces those costs drastically for everyone.
 
OSE Specifications
 
Introduction. The OSE Specifications define the properties and qualities of products that OSE develops - as well as the processes that are used to develop the products. Based on the goal of creating an appropriate technology infrastructure for earth, the intent of OSE Specifications is to inform the practical design choices of products and systems. The OSE specifications are based on the concept of a minimum but sufficient technology set that allows humanity to thrive, serving as a basis for scientific and cultural advancement.
 
The properties, qualities, and processes revolve around open source design.
 
The OSE Specifications are designs to be complete and sufficient for informing design choices. Thus, based on a specific need - such as a bicycle -
 
GVCS Product Ecologies
 
 
Introduction. The GVCS is the set of the 50 most important machines that it takes for modern life to exist...But can we really create a new civilization with 50 machines? Here we show how this can happen. Imagine a global village where nobody is left behind and where everyone exists in a state of peak performance - namely - where material survival issues were eliminated. (ref) The selection for the 50 machines is based on these properties:
Modular
Scalable
Generative
Open source
Provide at least one way to provide every single need of humans
Can be used to bootstrap to other machines
Here is the scale of the economy for comparison that can be created with these 50 machines: 100T! How do we get that? Let’s look at every sector of society, and examine how it’s produced today. But before we do that - let’s discuss how the tools were selected.
 
It’s simple. Pick anything in the entire economy. Such as your food. Or car. Or house. These machines - or other machines that produce these machines directly - are included in the global village construction set of 50 machines. A house, too? Yes, we’re cheating here, as a house is not a simple machine -  but since it’s the number one cost in peoples’ lives, we had to include it.
 
Our goal is to distribute production as far as possible - so that everyone on the planet has access.
 
OSE is all about converting scarce resources into abundant resources, while removing artificial scarcity from the equation.
To do this, we involve you in production. Who says that production can happen only on megafarms and megafactories of yesterday? Today, we can reclaim whole industries, with our lifestyle. What we fund determines the global economy.
Distributed hydrogen production - displacing the $5T oil and gas industry, and correcting geopolitics in the process
Open source Seed Eco-Homes for everyone, with aquaponic greenhouse production, and a microfactory in the garage. Here we convert the $8.5T construction industry and the $8T food and ag industry.
The microfactory in the garage - can produce a few trillion more.
Here we are at over 25T of the global economy, and we just started. That is ¼ of the global economy - where everyone can get involved.
 
Let’s talk more about curious facts about the 50 machines.
 
If you eat, you use a tractor. Whether you know it or not. That is a $122B industry. Facts.
 
New Civilization for $10k
Download the open source plans, build a sawmill ($500) + Tractor ($3k), CEB Press ($3k), 3D printer ($1k), induction furnace ($2k), Welder ($200), PV ($4k, 12.5kW), Filament Maker ($500), lathe ($500), metal rolling.
 
Say you start from raw land. You need a sawmill, CEB press, and tractor. You need some PV on your rooftop. And a pelletizer/continuous charcoal maker.
How do you bootstrap? Get a bunch of steel, melt it, cast it into rods, build a tractor. But you need a lathe to build an engine, which is obtained from 3D printing casting molds via lost plastic or lost wax casting.
 
 
Notes
 
Many economists recognize the following five economic sectors; the primary sector which includes agriculture, mining and other natural resource industries; the secondary sector covering manufacturing, engineering and construction; a tertiary sector for the service industries, the quaternary sector for intellectual activities involving education and research and the quinary sector reserved for high level decision makers in government and industry.
 
Read more: http://www.businessdictionary.com/definition/economic-sector.html
 
 
Construction is $8.5T. Global Food and Agriculture is $8T.  Electronics - $2T. Oil and gas production is a $5 Trillion economy worldwide. Auto industry is $4T. Steel industry is $1.5 trillion. Education - $4.9T
 
Wikipedia - Agriculture - $4.5T, Industry - $23T - Services (nonmaterial) - $48T.
 
Since divisions by sector are difficult to make - it is easier to look at value of the primary and secondary economy, to conclude on the relationship between GVCS tools and the world economy.
 
Global cement industry - $395B. Smart phones - $1T. Same as software. Aluminum is $150B. Software industry: $400B. Liner shipping - $400B. Computers - $395B.
 
Going to the hydrogen economy pegs the value of hydrogen filling stations at $5T.
 
Cement - 20-55 kWhr/ton electricity + 1040 kcal/kg heat (1.2kWhr/kg) of clinker. Or 1.2MWhr/kg. Think of 200kW PV array. $70k. 350 days payback if 1 Ton/day production. If use coal, 30MJ/kg - 8 kWhr - or 150 kg of charcoal per ton of cement. World’s first solar cement plant - eco-cement, carbon neutral. By electric, see below, 5x improved efficiency for 5 tons per day from 200kWhr PV array? That’s a sizeable array - perhaps 100kW is more reasonable. If .15 kW/sq m, need only 700 sq meters - only ⅙ of an acre. The next building should be ½ acre for the materials production facility. If we do small scale production - 100kW heat - 2.5 tons per day. That’s 25 tons of stabilized block. 3200lb per 4x8 wall section.  That is 60 feet of wall - just a microhouse. That would be absolute minimum.
 
25 ton per day setup is open source in Small Scale Cement Plants. 20 bags per ton. 8 pallets per day - or 500 bags * $10/bag. $5000/day. Doable. That is a typical industrial value that needs to be produced per day.
 
Electric - 800 kcal/kg for calcination - CaCO3 + Heat ->CaO + CO2. or 3 MJ/kg - or .8kWhr/kg. If we can transfer heat with 50% efficiency - then we have 10/2 = 5x increase over burning with charcoal. In general, electricity is cleaner. So theoretical limit of 200kW PV array is 5 tons per day.
 
 
GDP by country, wikipedia.
 
Look at Linux Market Share: Linux Desktop/Laptop -
 
 
This has been manufactured illegally by Microsoft.
 
 
 
There are 75M servers.  And 1B computers. 7B mobile. So about 6B open source devices, compared to 1B macwin. So depending on computing power, we get about 80% open source OSs. If most servers are linux, then the actual traffic attributed to Linux is about 43% (if servers are the predominant source of traffic)- with others at the 20% mark for several of them -
 
 
 
Nickel Iron Batteries. As the world’s only known lifetime-design battery (old batteries recycled from 100 years ago work as new (ref)), it is worth pursuing. No, it won’t get you the kW/kg storage capacity as Lithium Ion, and it has a 1% per day leakage, but the sun comes out daily, so for resilience purposes this is a great choice, especially when distributed manufacturing is considered. Known world lithium resources will last between 17-50 years if battery gigafactories are built.
 
Hydrogen - energy internet by Rifkin. Hydrogen is a great candidate for a global energy internet. It can be produced anywhere, and  Not to mention H storage for Seed Eco-Home, oxyhydrogen cutting, and integration with liquid oxygen for space travel and industrial cutting gas. Compressed for cars. So if we develop the personal hydrogen filling station - we can replace $5T of the global oil and gas industry.
 
House - Combining PV, biogas for cooking, and hydrogen for night time storage, a 6 kW PV system for $5k, means a $35k house-greenhouse combo that produces its own heat, electricity, food, water, and recycles its waste to provide cooking gas. And by the way, the excess PV, 18kWhr per day - goes to high pressure compression of hydrogen gas at 300 bar for $340 - with hydrogen storage tanks at $1500, and a hydrogen generaot at $1000 for 3 kw capacity. If we use the rooftop PV, then we have a sub-dollar per gallon fuel equivalent.
 
Gasifier - carbon, carbon fiber, carbon nanotubes, graphene
 
Introduction 1
 
If you want to transform the secondary economy (the government, finance, education) you must first transform the primary economy (production - agriculture, manufacturing, construction, etc). This is because the secondary economy depends on the primary economy. So if you are a world change maker, you would have to start with transforming the primary economy - or infrastructures.
 
Ok, but what about Google saying that all of the economy is really information, implying that the primary economy no longer matters? That’s not true, because the software economy - namely artificial intelligence in the broad sense - is only 20% of the economy in terms of revenue. That is today. What about in the future? We need to clarify what is today, what is a desirable future, and how to get there.
 
But predicting the future is not easy. Different scenarios can play out. The best way to predict the future is to invent it.
 
Technological optimists such as Ray Kurzweil claim that humanoid robots that can perform most agricultural / construction tasks without other machines are around the corner in as little as 10 years - decreasing the primacy of the material economy.  Just one robot with extreme accuracy and strength could replace 100s of specialized agricultural and manufacturing machines. Hence Google's position that in the end information (how to build such a power robot and its brains) is the most important. Does this position hold? Not yet. Let’s start with the next 30 years, after which it is all speculation due to the rapidly increasing rate of technological change. Kevin Kelly makes a reasonable prediction - that it won’t be about robots superseding humans, but about humans collaborating with robots. Successful humans in the next 30 years will learn how to work with AI and robots - to assist human capacity.
 
Hence the mental model of this book - that the hardware economy far overshadows the information economy today as the source of value. Take a look at the numbers: the auto, construction, and food industries total $25T today. Software totals $0.4T (see above), and computers total about the same.
 
This is interesting. As large as Apple and Google are, they are still a tiny fraction of the global economy. Others claim that the information economy stands at 20%.
 
We should understand this deeply to get a good check on reality. Yes, many people spend their whole day on a computer. But the actions of the computer correspond to moving atoms. And the atoms are the expensive, not electrons. Global electricity production (the current fuel of the information economy) - is 25,000 TWhrs. =25 to the 15th power. It is 10 cents for to the 3rd power per hour. So 10 cents  x 25 x 10 to the 12 = 2.5 to the 12th dollars - or 2.5 Trillion dollars.
 
That’s a couple of percent, and servers are 2% of the world electricity consumption. So the information economy is in principle very small.
 
This brings up the Kardashev scale, and the Zero Marginal Cost Society proposition. And we must touch on the concept of Lifetime Design.
 
It appears fair to say that for the foreseeable future, the hardware economy is much more important than information.
 
And yes, dematerialization is a real issue.
 
However, for us to not pay attention to making peoples’ lives better via hardware - the sustainable use of resources - and improving the ecological initegrity of the planet  - today - is not responsible. Yes, we might attain the singularity - and all our problems will be solved - but to think of this saving force is much akin to religioun - and a substitute for responsibility.
 
Thus, we must still ground ourselves in improving or correcting the physical infrastructures of the world. This is a materialist perspective, but it is not inconsistent with the information age. The key to information age integrity is dispersing information far and wide - but largely for the purpose of affecting the physical world.
 
That’s what I suggested in my 2011 TED talk on the Global Village Construction Set:
 
“Hi, my name is Marcin -- farmer, technologist. I was born in Poland, now in the U.S. I started a group called Open Source Ecology. We've identified the 50 most important machines that we think it takes for modern life to exist -- everything from a tractor, bread oven, to a circuit maker. Then we set out to create an open source, DIY, do it yourself version that anyone can build and maintain at a fraction of the cost. We call this the Global Village Construction Set.https://en.wikipedia.org/wiki/Kardashev_scale
 
So let me tell you a story. So I finished my 20s with a Ph.D. in fusion energy, and I discovered I was useless. I had no practical skills. The world presented me with options, and I took them. I guess you can call it the consumer lifestyle. So I started a farm in Missouri and learned about the economics of farming. I bought a tractor -- then it broke. I paid to get it repaired -- then it broke again. Then pretty soon, I was broke too.
 
I realized that the truly appropriate, low-cost tools that I needed to start a sustainable farm and settlement just didn't exist yet. I needed tools that were robust, modular, highly efficient and optimized, low-cost, made from local and recycled materials that would last a lifetime, not designed for obsolescence. I found that I would have to build them myself. So I did just that. And I tested them.And I found that industrial productivity can be achieved on a small scale.
 
So then I published the 3D designs, schematics, instructional videos and budgetson a wiki. Then contributors from all over the world began showing up, prototyping new machines during dedicated project visits. So far, we have prototyped eight of the 50 machines. And now the project is beginning to grow on its own.
 
We know that open source has succeeded with tools for managing knowledge and creativity. And the same is starting to happen with hardware too. We're focusing on hardware because it is hardware that can change people's lives in such tangible material ways. If we can lower the barriers to farming, building, manufacturing, then we can unleash just massive amounts of human potential.
 
That's not only in the developing world. Our tools are being made for the American farmer, builder, entrepreneur, maker. We've seen lots of excitement from these people, who can now start a construction business, parts manufacturing, organic CSA or just selling power back to the grid. Our goal is a repository of published designs so clear, so complete, that a single burned DVD is effectively a civilization starter kit.
 
I've planted a hundred trees in a day. I've pressed 5,000 bricks in one day from the dirt beneath my feet and built a tractor in six days. From what I've seen, this is only the beginning.
 
If this idea is truly sound, then the implications are significant. A greater distribution of the means of production, environmentally sound supply chains, and a newly relevant DIY maker culture can hope to transcend artificial scarcity. We're exploring the limits of what we all can do to make a better world with open hardware technology.”
 
But now back to Kardashev. Once we are super advanced and reach 1 on the scale….who knows what will happen. So let’s remain ignorant, with the immediate task at hand: to make it through the next 30 years of human civilization.
 
---
I have now been at the Global Village Construction Set for a decade. We can claim for the public record that the first machine was built at the end of 2007 - the brick press. a So I decided to write a book reviewing our progress and mobilizing the community to the next phase of accomplishments. Within a decade, I’d like OSE to have a billion dollar impact on civilization, and a trillion dollar impact by the decade after next. In order to do that - we need to scale our effort - but not like the platform monopolies of today - but in a distributive way of progress where nobody is left behind.
 
This is the good old fight of good versus evil - of decentralization and centralization. We all agree to Jeffersonian democracy in principle - the concept of a level economic field with room for a large number of players.
 
But the infrastructures of society today favor centralization - the historical enclosures. Of land. Of imperial colonies of the 1800s - that prevent producers from using their raw materials - but instead selling them to England so they can they could buy the finished goods  (ref). Sound familiar today? The modern equivalent is that many people sell themselves at a fraction of their worth, producing goods for others, and after getting paid, they can buy these goods back. Why not produce and use these goods without going through intermediaries?
 
Amazon is good in that it removes those intermediaries. The whole economy is getting more efficient. But it’s not becoming distributive of its wealth - as wealth inequality is rising (graph)
 
What are some of the critical issues of today? Environmental decline. Poor wealth distribution. Economic bubbles and collapses that funnel even more wealth to the few. Poverty and material deprivation - like we couldn’t solve these problems readily if we wanted to. Or war and competion. Corruption.
 
All of these features of modern civilization revolve around humans not yet having learned to get along with one another. This means that cooperation is not as strong as competition, though it sounds obvious that we can get further by cooperation than by competition, as written about eloquently in the book SuperCooperators.
 
"Many problems that challenge us today can be traced back to a profound tension between what is good and desirable for society as a whole and what is good and desirable for an individual. That conflict can be found in global problems such as climate change, pollution, resource depletion, poverty, hunger, and overpopulation. The biggest issues of all - saving the planet and maximizing the collective lifetime of the species Homo sapiens - cannot be solved by technology alone. They require novel ways for us to work in harmony. If we are to continue to thrive, we have but one option. We now have to manage the planet as a whole. If we are to win the struggle for existence, and avoid a precipitous fall, there's no choice but to harness this extraordinary creative force. We now have to refine and to extend our ability to cooperate. We must become familiar with the science of cooperation. Now, more than ever, the world needs SuperCooperators."
 
But as an economic paradigm - we are far from cooperation. Structures of patents, including patents on life forms themselves, communications monopolies like Verizon threatening net neutrality, competitive waste in corporations that don’t work together. In kindergarden we are taught to share, but as soon as we graduate college we are told to proprietize.
 
Proprietary production is in my view the single most dangerous existential risk affecting our civilization. The ramifications of proprietary production are profound. It systematically reinforces the dumbing down of people - in other words people not gaining full education towards becoming productive members of society. This is because as a norm - individuals practice protectionism of their knowledge. While you may easily access low quality information - that information which is most effective is in general a trade secret. This is pervasive throughout our life - professors won’t teach you information that is state of art - as that information is patented or trade secret. Your peers won’t tell you the insides of their innovation - as it’s their source of competive advantage. In general, mediocrity is reinforced throughout civlization, as people are not freely building upon each others’ work.
 
And those that secure a patent have the arrogance to claim that their work is original - and not a small addition building on all of prior human knowledge. That is what society rewards today - most patent holders probably do not consider their action arrogance. But once again, this is a manifestation that society has not evolved enough to collaborate.
 
The critic of the above statement will say, but how do you recover your R&D investment if you don’t monopolize the fruits of that R&D? Well, that’s the wrong question to ask. The correct question is, why did we create a patent system in the first place? While founders of patents claim it’s to protect one’s investment, the better question would be, why are we forced to protect our investments against freeloaders? Well, the clear answer is to make money - but once again we are trapped in the dilemma of what’s good for society and what’s good for the individual.
 
This boild down to value judgments. Do we value greed, or do we value true collaboration?
 
This book is written for those who value collaboration. The bottom line is - how do we create more infrastructures for distributing wealth to more people? And without creating a welfare state. How do we empower more people? How do people truly gain access to learning effecively? How do we prevent further enclosures by platform monopolies?
 
Our economy is proprietary to the bone. Through patents galore - did you know that Google and Apple spent more on patents than on R&D in 2012?
 
What does that mean in practice? Say you’re trying to learn something productive, such as building a hydrogen-fueled car. Good luck in accessing state-of-art information on that. You have to pay your dues to get it. And those that pay their dues, do not share back. If you point to Tesla open sourcing their patents? BS. Please show me the actaul technical designs, supply chain informaiton, and production engineering that would allow me to replicate without having to go through reinventing the wheel myself?
 
That’s why open source information is critical, as a key to distributing economic power.
 
In this book, my goal is to propose a program for building civilization from scratch, for five dollars. Well, not exactly, but at 1/100 the cost of the existing options. My goal is to explain the Global Village Construction Set - so that today, we can build eco-homes, hydrogen cars - all of our infrastructures and key products in an open source way. Which would have profound effects on the rest of civilization
 
Today the primary economy is 73 Trillion large (pie chart by sector - construction, agriculture, transportation, manufacturing).
 
The primary economy is called primary because it’s the foundation for the systems that build upon it: government, financial sector, entertainment, education, etc.
 
It is the primary economy that has the most profound impact upon everyone. Simply put - if we want to tranform the secondary economy (ie, the government, the corporation, the education sytem, etc) - we must first transform the primary economy upon which the secondary economy depends.
 
Platform Monoplies
 
Platform monopolies are just the latest development in humanity’s enclosures. First we enclosed land, so that workers began to depend on the land owner. We enslaved people, so they could sell raw resources and buy the finished products. Then comes patents, DRM, Walmart, and finally, Amazon, Google. Apple. The corporation. Show how the corporation encloses property. Class struggle. Why is everywhere a system of oppression being built? That is a curious feature of human civilization.
 
Capitalism
 
Capitalism has a paradox. Rifkin. Upon succeeding, capitalism truly distributes wealth, because that is the most efficient state? That is quite hopeful. You mean we can make Gabon as rich as the USA? You mean we can get rid of all poverty? You mean we can protect the environment? Yes, to all of the above. If you have 100x lower cost goods, and 100x more efficiency.
 
Rifkin predicts that corporations are cannibalizing themselves (Amazon ate Borders and Circuit City, Uber ate many taxi services, Walmart ate many local stores). Is unemployment the actual result? Does Amazon actually create lower prices? Yes. What is the cost? Is there a high cost of low price?
 
Ceative Destruction?
 
The Shift Index builds on Richard Foster’s book, Creative Destruction (2001) which showed that the life expectancy of firms in the Fortune 500 had declined from 75 years half a century ago to less than 15 years.
 
Return on assets is declining  -
 
Per capita income is increasing
 
Top 400 richest people in USA from 1982 to present - 
 
 
Linux market share -
 
 
Introduction 2
 
This is a book that asks the question - what does it take to create society from scratch? Free from various and sundry ills, from genocide, to war, and other hobgoblins of power concentration?
Who closed Main Street? Ladies and gentlemen, Main Street is closed. This refers to Wall Street taking a lead. Let’s explore this for a second, as this is a critical point to understand regarding the structure of the modern infrastructure.
Claim that under the current state of the world - lies a bellicose mindset of fear and scarcity - manifesting as enclosure of numerous commons and a general retardation of human intelligence.
We propose a program of the open source economy as a solution. Anyone can take on this program. We analyze the current state, and propose the adjto bring society to its next level of evolution. This is a story of personal repsonsibility: ask not what the world can do for you, but what you can do to the world - to make it better. While the end point technical (building infrastructures for a new civilization) the motivation is sociological: asking how everyone can prosper, so nobody is left behind. Assumption is that ‘we are all in it together’
For anyone to act effectively, they have to ‘know what time it is.’ What is the state of the world? Which stories that we are told are political manipulation by specific agendas - and which are authentic issues? How do we differentiate between the two?
So the chapter on the State of the World: Abundance or Demise - must begin with how humans process information, so we are more aware of what is ‘true’ and what is not. This invariably gets to socilogical topics of general semantics, mass cultural creation, political ponerology, and the scientific method. Yet the rationality must be tempered with uncertainty, as inherent in the scientific method. For even the best scientists used to think that the world was flat - until someone showed otherwise. Kardashev Scale 0 at present. 
The state of the world assesses the major infrastructures of civilization - from economic, to political, to social - to bring common understanding to the state of affairs. It’s an assessment of abundance thinking, and scarcity thinking - aiming to come up with common ground that we may all agree is generally regarded as true. The goal is to set the record straight, as much as such a task is possible. Of course there will be assumptions in the background - and those will be made explicit as we go along.
What I propose is the open source ecocnomy, and I will explain why I think open source collaborative economies are where society is going - in terms of an operating paradigm - as opposed to the current competitive, proprietary norm, where wealth concentration is build thoroughly into the operating system of human transactions. Thus the claim that wealth distributed far and wide is the best option for a democratic society.
In the State of the World discussion, key paradoxes must be explored. First, the paradox of capitalism, where the ultimate success of capitalism - a power/wealth concentrating enterprise - results in thorough distribution. What are the facs and figures behind this? Is the very end point of capitalism its complete opposite - the open source economy? We will of course define the terms here - what is capitalism as understood today, and what is the open source economy?
The Paradox of Capitalism has been questioned by Adam Smith (ref), and other well-known economists. But to date - this remains a riddle without solution.
Second, the Paradox of Democracy:  the Struggle between liberty and equality (Victor David Hanson). That issue has never been resolved. If you err on the side of liberty, you accept some inequality. If you err on the side of equality, you compromise liberty (make people equal even if they are not). US founding fathers said that democracy (erring on the side of Athenian equality) was an evolutionary dead end. USA liked an enlightened oligarchy, not democracy - which meant coarcion in the style of ‘majority mob rule’ - that led to deaths such as of Aristotle or of Lesbians. Equality is coercion. Democracy started in the 507 BC, ended in 338 BC. Democracy remained an undelivered promise of numerous intellectuals. What worked instead was a constitutional system, an enlightened oligarchy (such as the USA where only land owners voted), with checks and balances, and checks on the mob rule. They did not trust people to have absolute power. This left a legacy of constitutional governments. Democracy is not rule by people, it’s rule by poor people. Right wing critique: people are not equal; if you force them to be, it requires 2 things: loss of individual liberty and coercion.
Open source solution: not take from the ‘rich’, but provide tools to the ‘poor’ - while leveling the field from extractive institutions and monopolies
Practical outcome: the struggle between ‘democrats’ and ‘republicans’ in the USA?
Considering the paradoxes of the economy and of governance, we will be on a better footing to begin addressing the question of prosperity for everyone.
 
 
Diffusion of Technology
 
Patents
Ideas are not naturally scarce. However, by recognizing a right in an ideal object, one creates scarcity where none existed before. As Arnold Plant explains: “It is a peculiarity of property rights in patents (and copyrights) that they do not arise out of the scarcity of the objects which become appropriated. They are not a consequence of scarcity. They are the deliberate creation of statute law, and, whereas in general the institution of private property makes for the preservation of scarce goods, tending . . . to lead us “to make the most of them,” property rights in patents and copyrights make possible the creation of a scarcity of the products appropriated which could not otherwise be maintained. - Plant, “The Economic Theory Concerning Patents for Inventions,” p. 36. Also Mises, Human Action
Bouckaert also argues that natural scarcity is what gives rise to the need for property rules, and that IP laws create an artificial, unjustifiable scarcity. As he notes: Natural scarcity is that which follows from the relationship between man and nature. Scarcity is natural when it is possible to conceive of it before any human, institutional, contractual arrangement. Artificial scarcity, on the other hand, is the outcome of such arrangements. Artificial scarcity can hardly serve as a justification for the legal framework that causes that scarcity. Such an argument would be completely circular. On the contrary, artificial scarcity itself needs a justification.- Bouckaert, “What is Property?” p. 793; see also pp. 797–99.
That is, by merely authoring an original expression of ideas, by merely thinking of and recording some original pattern of information, or by finding a new way to use his own property (recipe), the IP creator instantly, magically becomes a partial owner of others’ property.  - mises.org
 
 
Research
Infrastructures
Infrastructures - nice article on Steemit here
Digital Infrastructures - LinkedIn article by Butler
You will be paid by how well you work with an AI - Long Now Kevin Kelly on the next 30 years
Civilization infrastructure referring to digital
 
Hydrogen
SME on hydrogen filling station - Stan.
PDF, Toepler
 
Compressed Gas Storage - wiki
Compressed hydrogen - assuming near free solar energy - compressed hydrogen makes sense. 3000 PSI, 250 mile range is accommodated by 14 cubic feet (100 gal) of hydrogen - a 7.5 gal gasoline equivalent.
If this is 140 cubic feet at 300 PSI
Generators
Quieting a Generator
Lithium + Nickel
$3/lb cost of commodity lithium
What Tesla battery looks like -
Nickel resources  - 300M MT - or 175 years supply at current use.

Latest revision as of 16:12, 16 December 2024

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