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Tiberius Brastaviceanu

The commons law project: A vision of green governance - 0 views

blog.p2pfoundation.net/...26

commons law project governance legal David Bollier Michel Bauwens

shared by Tiberius Brastaviceanu on 27 May 12 - No Cached
  • “commons law” (not to be confused with common law)
  • Commons law consists of those social practices, cultural traditions and specific bodies of formal law that recognize the rights of commoners to manage their own resources
  • Ever since the rise of the nation-state and especially industrialized markets, however, commons law has been marginalized if not eclipsed by contemporary forms of market-based law
  • ...19 more annotations...
  • individual property rights and market exchange have been elevated over most everything else, and this has only eroded the rights of commoners,
  • reframe the very notion of “the economy” to incorporate non-market sharing and collaboration.
  • we had concluded that incremental efforts to expand human rights and environmental protection within the framework of the State/Market duopoly were simply not going to achieve much
  • the existing system of regulation and international treaties has been a horrendous failure over the past forty years. Neoliberal economics has corrupted and compromised law and regulation, slashing away at responsible stewardship of our shared inheritance while hastening a steady decline of the world’s ecosystems
  • We concluded that new forms of ecological governance that respect human rights, draw upon commons models and reframe our understanding of economic value, hold great promise
  • An economics and supporting civic polity that valorizes growth and material development as the precondition for virtually everything else is ultimately a dead end—literally.
  • Achieving a clean, healthy and ecologically balanced environment requires that we cultivate a practical governance paradigm based on, first, a logic of respect for nature, sufficiency, interdependence, shared responsibility and fairness among all human beings; and, second, an ethic of integrated global and local citizenship that insists upon transparency and accountability in all activities affecting the integrity of the environment.
  • We believe that commons- and rights-based ecological governance—green governance—can fulfill this logic and ethic. Properly done, it can move us beyond the neoliberal State and Market alliance—what we call the ‘State/Market’—which is chiefly responsible for the current, failed paradigm of ecological governance.
  • The basic problem is that the price system, seen as the ultimate governance mechanism of our polity, falls short in its ability to represent notions of value that are subtle, qualitative, long-term and complicated.
  • These are, however, precisely the attributes of natural systems.
  • Exchange value is the primary if not the exclusive concern.
  • anything that does not have a price and exists ‘outside’ the market is regarded (for the purposes of policy-making) as having subordinate or no value.
  • industry lobbies have captured if not corrupted the legislative process
  • regulation has become ever more insulated from citizen influence and accountability as scientific expertise and technical proceduralism have come to be more and more the exclusive determinants of who may credibly participate in the process
  • we have reached the limits of leadership and innovation within existing institutions and policy structures
  • it will not be an easy task to make the transition from State/Market ecological governance to commons- and rights-based ecological governance
  • It requires that we enlarge our understanding of ‘value’ in economic thought to account for nature and social well-being; that we expand our sense of human rights and how they can serve strategic as well as moral purposes; that we liberate ourselves from the limitations of State-centric models of legal process; and that we honor the power of non-market participation, local context and social diversity in structuring economic activity and addressing environmental problems.
  • articulate and foster a coherent new paradigm
  • deficiencies of centralized governments (corruption, lack of transparency, rigidity, a marginalized citizenry)
Philip Solars

The Must Have Solar Equipment - 0 views

Due to the increasing cost of electricity bills, I have finally decided to switch to solar energy. Aside from being free, it also helps save mother earth. I must admit that at first I was confused ...

started by Philip Solars on 28 Sep 12 no follow-up yet
Tiberius Brastaviceanu

Innovation Canada: A Call to Action - Review of Federal Support to Research and Develop... - 1 views

rd-review.ca/...00288.html

Industry Canada

shared by Tiberius Brastaviceanu on 04 Feb 14 - No Cached
  • Canada has a solid foundation on which to build success as a leader in the knowledge economy of tomorrow
  • innovation in Canada lags behind other highly developed countries
  • innovation is the ultimate source of the long-term competitiveness of businesses and the quality of life of Canadians
  • ...28 more annotations...
  • We heard that the government should be more focussed on helping innovative firms to grow and, particularly, on serving the needs of small and medium-sized enterprises (SMEs)
  • greater cooperation with provincial programs
  • innovation support is too narrowly focussed on R&D – more support is needed for other activities along the continuum from ideas to commercially useful innovation
  • more productive and internationally competitive economy
  • whole-of-government program delivery vehicle – the Industrial Research and Innovation Council (IRIC)
  • SR&ED program should be simplified
  • includes non-labour costs, such as materials and capital equipment, the calculation of which can be highly complex
  • the base for the tax credit should be labour-related costs, and the tax credit rate should be adjusted upward
  • fund direct support measures for SMEs
  • promoting the growth of firms
  • facilitating access by such firms to an increased supply of risk capital at both the start-up and later stages of their growth.
  • building public–private research collaborations
  • National Research Council (NRC) should become independent collaborative research organizations
  • become affiliates of universities
  • create opportunity and demand for leading-edge goods
  • encouragement of innovation in the Canadian economy should become a stated objective of procurement policies and programs.
  • the government needs to establish business innovation as a whole-of-government priority
  • put innovation at the centre of the government's economic strategy
  • Innovation Advisory Committee (IAC) – a body with a whole-of-government focus that would oversee the realization of our proposed action plan, as well as serve as a permanent mechanism to promote the refinement and improvement of the government's business innovation programs going forward.
  • focus resources where market forces are unlikely to operate effectively or efficiently and, in that context, address the full range of business innovation activities, including research, development, commercialization and collaboration with other key actors in the innovation ecosystem
  • the closer the activity being supported is to market, and therefore the more likely it is that the recipient firm will capture most of the benefit for itself.
  • specific sectors
  • of strategic importance
  • concentrated in particular regions
  • succeed in the arena of global competition
    • Tiberius Brastaviceanu
      Tiberius Brastaviceanu on 05 Feb 14
       
      They don't go beyond the firm
    • Tiberius Brastaviceanu
      Tiberius Brastaviceanu on 05 Feb 14
       
      they are still stuck in the competitive paradigm
    • Tiberius Brastaviceanu
      Tiberius Brastaviceanu on 05 Feb 14
       
      Still stack with the old paradigm of the "knowledge economy"  http://en.wikipedia.org/wiki/Knowledge_economy  My opinion is that we're moving into a know-how economy. 
Philip Solars

The Must Have Solar Equipment - 2 views

Due to the increasing cost of electricity bills, I have finally decided to switch to solar energy. Aside from being free, it also helps save mother earth. I must admit that at first I was confused ...

started by Philip Solars on 29 Nov 12 no follow-up yet
Tiberius Brastaviceanu

'Food Security, Sustainable Agriculture ISIB-09-2014 - 0 views

ec.europa.eu/...2287-isib-09-2014.html

proposal horizon 2020 Tibi's selection Hugo

shared by Tiberius Brastaviceanu on 02 Jun 14 - No Cached
  • Tiberius Brastaviceanu on 02 Jun 14
     
    "Topic: Supporting National Contact Points for Horizon 2020 Societal Challenge 2 on 'Food Security, Sustainable Agriculture, Marine and Maritime Research and the Bioeconomy' and the Key Enabling Technology (KET) 'Biotechnology'"
Tiberius Brastaviceanu

INFRASUPP-7-2014 - 0 views

ec.europa.eu/...70-infrasupp-7-2014.html

horizon 2020 proposal Tibi's selection Guillaume

shared by Tiberius Brastaviceanu on 02 Jun 14 - No Cached
  • Topic: e-Infrastructure policy development and international cooperation
  • coordinate European, national and/or regional policies and programmes for e-infrastructures
  • global interoperability and reach
  • ...9 more annotations...
  • Scope: Proposals will support one or more of the following actions:
  • Dissemination of information on the e-infrastructure programme
  • coordination
  • Stakeholder initiatives
  • Policy coordination at European or regional level
  • metrics and indicators
  • Monitor and analyse
  • Support to technology transfer
  • Support to cooperation with developing countries
  • Tiberius Brastaviceanu on 02 Jun 14
     
    "Topic: e-Infrastructure policy development and international cooperation"
sebastianklemm

Stay foundation Stuttgart - Stay Stiftung - 1 views

stay-stiftung.org/stay-foundation-stuttgart

organization greens_for_good

shared by sebastianklemm on 19 Apr 21 - No Cached
  • sebastianklemm on 19 Apr 21
     
    What does the Stay Foundation do once the social enterprises have found each other? In the truest sense of the word development-aid.These local social enterprises lack the financial support to exploit their development potential. The team of the Stay Foundation in Stuttgart is sure that if funds are provided by industrial nations, which are then used for the expansion of existing social enterprises, it is development-aid on an equal footing. The challenge in Germany is therefore to attract companies and private individuals to invest in social enterprises in developing countries. In order to raise awareness of Africa and the local social enterprises which are active there, the team organises events for entrepreneurs, is present at events on the subject of Africa, informs private individuals about the foundation and its objectives, examines possibilities for funding and cooperation with the aim of supporting the remaining development in Africa.
sebastianklemm

IFAD Investing in rural people - 0 views

www.ifad.org/about

organisation potential_partner greens_for_good

shared by sebastianklemm on 25 Apr 21 - No Cached
  • sebastianklemm on 25 Apr 21
     
    At the International Fund for Agricultural Development (IFAD) we invest in rural people, empowering them to increase their food security, improve the nutrition of their families and increase their incomes. We help them build resilience, expand their businesses and take charge of their own development. IFAD is an international financial institution and specialized United Nations agency based in Rome, the UN's food and agriculture hub. Since 1978, we have provided US$22.4 billion in grants and low-interest loans to projects that have reached an estimated 512 million people.
Tiberius Brastaviceanu

Evolving Towards a Partner State in an Ethical Economy - 0 views

www.realitysandwich.com/_partner_state_ethical_economy

ethical economy new economy paper theory value networks Bauwens Michel

shared by Tiberius Brastaviceanu on 02 Apr 12 - No Cached
  • In the  emerging institutional model of peer production
  • we can distinguish an interplay between three partners
  • a community of contributors that create a commons of knowledge, software or design;
  • ...46 more annotations...
  • There is a clear institutional division of labour between these three players
  • a set of "for-benefit institutions' which manage the 'infrastructure of cooperation'
  • an enterpreneurial coalition that creates market value on top of that commons;
  • because democracy, and the market, and hierarchy, are modes of allocation of scarce resources
  • Is there perhaps a new model of power and democracy co-evolving out of these new social practices, that may be an answer to the contemporary crisis of democracy
  • we are witnessing a new model for the state. A 'P2P' state, if you will.
  • The post-democratic logic of community
  • these communities are not democracies
  • Can we also learn something about the politics of this new mode of value creation
  • has achieved capacities both for global coordination, and for the small group dynamics that are characteristic of human tribal forms and that it does this without 'command and control'! In fact, we can say that peer production has enabled the global scaling of small-group dynamics.
  • Everyone can contribute without permission, but such a priori permissionlessness is  matched with mechanisms for 'a posteriori'  communal validation, where those with recognized expertise and that are accepted by the community, the so-called 'maintainers' and the 'editors',  decide
  • These decisions require expertise, not communal consensus
  • tension between inclusiveness of participation and selection for excellence
  • allowing for maximum human freedom compatible with the object of cooperation. Indeed, peer production is always a 'object-oriented' cooperation, and it is the particular object that will drive the particular form chosen for its 'peer governance' mechanisms
  • The main allocation mechanism in such project, which replaces the market, the hierarchy and democracy,  is a 'distribution of tasks'
  • no longer a division of labor between 'jobs', and the mutual coordination works through what scientist call 'stigmergic signalling'
  • work environment is designed to be totally open and transparent
  • every participating individual can see what is needed, or not and decide accordingly whether to undertake his/her particular contribution
  • this new model
  • Such communities are truly poly-archies and the type of power that is held in them is meritocratic, distributed, and ad hoc.
  • And they have to be, because an undemocratic institution would also discourage contributions by the community of participants.
    • Kurt Laitner
      Kurt Laitner on 02 Apr 12
       
      disagree, there are many ways to ethically distribute governance, not just democracy
  • Hence, an increased exodus of productive  capacities, in the form of direct use value production, outside the existing system of monetization, which only operates at its margins.
  • Where there is no tension between supply and demand, their can be no market, and no capital accumulation
  • Facebook and Google users create commercial value for their platforms, but only very indirectly and they are not at all rewarded for their own value creation.
  • Since what they are creating is not what is commodified on the market for scarce goods, there is no return of income for these value creators
  • This means that social media platforms are exposing an important fault line in our system
  • If you did not contribute, you had no say, so engagement was and is necessary.
    • Kurt Laitner
      Kurt Laitner on 02 Apr 12
       
      key divergence from birth/process citizenship driven democracy
  • ⁃   At the core of value creation are various commons, where the innovations are deposited for all humanity to share and to build on ⁃   These commons are enabled and protected through nonprofit civic associations, with as national equivalent the Partner State, which empowers and enables that social production ⁃   Around the commons emerges a vibrant commons-oriented economy undertaken by different kinds of ethical companies, whose legal structures ties them to the values and goals of the commons communities, and not absentee and private shareholders intent of maximising profit at any cost
  • the citizens deciding on the optimal shape of their provisioning systems.
    • Kurt Laitner
      Kurt Laitner on 02 Apr 12
       
      ie value equations..?
  • Today, it is proto-mode of production which is entirely inter-dependent with the system of capital
  • Is there any possibility to create a really autonmous model of peer production, that could create its own cycle of reproduction?
  • contribute
    • Kurt Laitner
      Kurt Laitner on 02 Apr 12
       
      defined as?
    • Tiberius Brastaviceanu
      Tiberius Brastaviceanu on 03 Apr 12
       
      "ad hoc": perhaps based on context, needs and everyone's understanding of the situation
  • and whose mission is the support of the commons and its contributors
  • In this way, the social reproduction of commoners would no longer depend on the accumulation cycle of capital, but on its own cycle of value creation and realization
  • Phyles are mission-oriented, purpose-driven, community-supportive entities that operate in the market, on a global scale, but work for the commons.
  • peer production license, which has been proposed by Dmytri Kleiner.
  • Thijs Markus writes  so eloquently about Nike in the Rick Falkvinge blog, if you want to sell $5 shoes for $150 in the West, you better have one heck of a repressive IP regime in place.
  • Hence the need for SOPA/PIPA , ACTA'S and other attempts to criminalize the right to share.
  • An economy of scope exists between the production of two goods when two goods which share a CommonCost are produced together such that the CommonCost is reduced.
  • shared infrastructure costs
  • 2) The current system beliefs that innovations should be privatized and only available by permission or for a hefty price (the IP regime), making sharing of knowledge and culture a crime; let's call this feature, enforced 'artificial scarcity'.
  • 1) Our current system is based on the belief of infinite growth and the endless availability of resources, despite the fact that we live on a finite planet; let's call this feature, runaway 'pseudo-abundance'.
  • So what are the economies of scope of the new p2p age? They come in two flavours: 1) the mutualizing of knowledge and immaterial resources 2) the mutualizing of material productive resources
  • how does global governance look like in P2P civilization?
  • conflicts between contributors
  • are not decided by authoritarian fiat, but by 'negotiated coordination'.
sebastianklemm

TADAMON - Empowerment for Poverty Reduction - 1 views

tadamon.community

humanitarian organisation potential partner greens_for_good IoPA platform incubator accelerator funding

shared by sebastianklemm on 19 Apr 21 - No Cached
  • sebastianklemm on 19 Apr 21
     
    The IsDB-ISFD-NGO Empowerment for Poverty Reduction is a partnership program sponsored by The Islamic Solidarity Fund for Development (ISFD), managed by The Islamic Development Bank (IsDB) and implemented by United Nations Development program (UNDP) and other strategic partners. TADAMON platform is a tool for improving CSOs (Civil Society Organizations) in 57 OIC (Organization of Islamic Cooperation) Member Countries by providing visibility, funding, capacity building and knowledge.
Tiberius Brastaviceanu

Beyond Blockchain: Simple Scalable Cryptocurrencies - The World of Deep Wealth - Medium - 0 views

medium.com/...-cryptocurrencies-1eb7aebac6ae

blockchainaccess_project paper Holochain Arthur Brock

shared by Tiberius Brastaviceanu on 01 Jun 16 - No Cached
  • I clarify the core elements of cryptocurrency and outline a different approach to designing such currencies rooted in biomimicry
  • This post outlines a completely different strategy for implementing cryptocurrencies with completely distributed chains
  • Rather than trying to make one global, anonymous, digital cash
  • ...95 more annotations...
  • we are interested in the resilience that comes from building a rich ecosystem of interoperable currencies
  • What are the core elements of a modern cryptocurrency?
  • Digital
  • Holdings are electronic and only exist and operate by virtue of a community’s agreement about how to interpret digital bits according to rules about operation and accounting of the currency.
  • Trustless
  • don’t have to trust a 3rd party central authority
  • Decentralized
  • Specifically, access, issuance, transaction accounting, rules & policies, should be collectively visible, known, and held.
  • Cryptographic
  • This cryptographic structure is used to enable a variety of people to host the data without being able to alter it.
  • Identity
  • there must be a way to associate these bits with some kind of account, wallet, owner, or agent who can use them
  • Other things that many take for granted in blockchains may not be core but subject to decisions in design and implementation, so they can vary between implementations
  • It does not have to be stored in a synchronized global ledger
  • does not have to be money. It may be a reputation currency, or data used for identity, or naming, etc
  • Its units do not have to be cryptographic tokens or coins
  • It does not have to protect the anonymity of users, although it may
  • if you think currency is only money, and that money must be artificially scarce
  • Then you must tackle the problem of always tracking which coins exist, and which have been spent. That is one approach — the one blockchain takes.
  • You might optimize for anonymity if you think of cryptocurrency as a tool to escape governments, regulations, and taxes.
  • if you want to establish and manage membership in new kinds of commons, then identity and accountability for actions may turn out to be necessary ingredients instead of anonymity.
  • In the case of the MetaCurrency Project, we are trying to support many use cases by building tools to enable a rich ecosystem of communities and current-sees (many are non-monetary) to enhance collective intelligence at all scales.
  • Managing consensus about a shared reality is a central challenge at the heart of all distributed computing solutions.
  • If we want to democratize money by having cryptocurrencies become a significant and viable means of transacting on a daily basis, I believe we need fundamentally more scalable approaches that don’t require expensive, dedicated hardware just to participate.
  • We should not need system wide consensus for two people to do a transaction in a cryptocurrency
  • Blockchain is about managing a consensus about what was “said.” Ceptr is about distributing a consensus about how to “speak.”
  • how nature gets the job done in massively scalable systems which require coordination and consistency
  • Replicate the same processes across all nodes
  • Empower every node with full agency
  • Hold this transformed state locally and reliably
  • Establish protocols for interaction
  • Each speaker of a language carries the processes to understand sentences they hear, and generate sentences they need
  • we certainly don’t carry some kind of global ledger of everything that’s ever been said, or require consensus about what has been said
  • Language IS a communication protocol we learn by emulating the processes of usage.
  • Dictionaries try to catch up when the usage
  • there is certainly no global ledger with consensus about the state of trillions of cells. Yet, from a single zygote’s copy of DNA, our cells coordinate in a highly decentralized manner, on scales of trillions, and without the latency or bottlenecks of central control.
  • Imagine something along the lines of a Java Virtual Machine connected to a distributed version of Github
  • Every time this JVM runs a program it confirms the hash of the code it is about to execute with the hash signed into the code repository by its developers
  • This allows each node that intends to be honest to be sure that they’re running the same processes as everyone else. So when two parties want to do a transaction, and each can have confidence their own code, and the results that your code produces
  • Then you treat it as authoritative and commit it to your local cryptographically self-validating data store
  • Allowing each node to treat itself as a full authority to process transactions (or interactions via shared protocols) is exactly how you empower each node with full agency. Each node runs its copy of the signed program/processes on its own virtual machine, taking the transaction request combined with the transaction chains of the parties to the transaction. Each node can confirm their counterparty’s integrity by replaying their transactions to produce their current state, while confirming signatures and integrity of the chain
  • If both nodes are in an appropriate state which allows the current transaction, then they countersign the transaction and append to their respective chains. When you encounter a corrupted or dishonest node (as evidenced by a breach of integrity of their chain — passing through an invalid state, broken signatures, or broken links), your node can reject the transaction you were starting to process. Countersigning allows consensus at the appropriate scale of the decision (two people transacting in this case) to lock data into a tamper-proof state so it can be stored in as many parallel chains as you need.
  • When your node appends a mutually validated and signed transaction to its chain, it has updated its local state and is able to represent the integrity of its data locally. As long as each transaction (link in the chain) has valid linkages and countersignatures, we can know that it hasn’t been tampered with.
  • If you can reliably embody the state of the node in the node itself using Intrinsic Data Integrity, then all nodes can interact in parallel, independent of other interactions to maximize scalability and simultaneous processing. Either the node has the credits or it doesn’t. I don’t have to refer to a global ledger to find out, the state of the node is in the countersigned, tamper-proof chain.
  • Just like any meaningful communication, a protocol needs to be established to make sure that a transaction carries all the information needed for each node to run the processes and produce a new signed and chained state. This could be debits or credits to an account which modify the balance, or recoding courses and grades to a transcript which modify a Grade Point Average, or ratings and feedback contributing to a reputation score, and so on.
  • By distributing process at the foundation, and leveraging Intrinsic Data Integrity, our approach results in massive improvements in throughput (from parallel simultaneous independent processing), speed, latency, efficiency, and cost of hardware.
  • You also don’t need to incent people to hold their own record — they already want it.
  • Another noteworthy observation about humans, cells, and atoms, is that each has a general “container” that gets configured to a specific use.
  • Likewise, the Receptors we’ve built are a general purpose framework which can load code for different distributed applications. These Receptors are a lightweight processing container for the Ceptr Virtual Machine Host
  • Ceptr enables a developer to focus on the rules and transactions for their use case instead of building a whole framework for distributed applications.
  • how units in a currency are issued
  • Most people think that money is just money, but there are literally hundreds of decisions you can make in designing a currency to target particular needs, niches, communities or patterns of flow.
  • Blockchain cryptocurrencies are fiat currencies. They create tokens or coins from nothing
  • These coins are just “spoken into being”
  • the challenging task of
  • ensure there is no counterfeiting or double-spending
  • Blockchain cryptocurrencies are fiat currencies
  • These coins are just “spoken into being”
  • the challenging task of tracking all the coins that exist to ensure there is no counterfeiting or double-spending
  • You wouldn’t need to manage consensus about whether a cryptocoin is spent, if your system created accounts which have normal balances based on summing their transactions.
  • In a mutual credit system, units of currency are issued when a participant extends credit to another user in a standard spending transaction
  • Alice pays Bob 20 credits for a haircut. Alice’s account now has -20, and Bob’s has +20.
  • Alice spent credits she didn’t have! True
  • Managing the currency supply in a mutual credit system is about managing credit limits — how far people can spend into a negative balance
  • Notice the net number units in the system remains zero
  • One elegant approach to managing mutual credit limits is to set them based on actual demand.
  • concerns about manufacturing fake accounts to game credit limits (Sybil Attacks)
  • keep in mind there can be different classes of accounts. Easy to create, anonymous accounts may get NO credit limit
  • What if I alter my code to give myself an unlimited credit limit, then spend as much as I want? As soon as you pass the credit limit encoded in the shared agreements, the next person you transact with will discover you’re in an invalid state and refuse the transaction.
  • If two people collude to commit an illegal transaction by both hacking their code to allow a normally invalid state, the same still pattern still holds. The next person they try to transact with using untampered code will detect the problem and decline to transact.
  • Most modern community currency systems have been implemented as mutual credit,
  • Hawala is a network of merchants and businessmen, which has been operating since the middle ages, performing money transfers on an honor system and typically settling balances through merchandise instead of transferring money
  • Let’s look at building a minimum viable cryptocurrency with the hawala network as our use case
  • To minimize key management infrastructure, each hawaladar’s public key is their address or identity on the network. To join the network you get a copy of the software from another hawaladar, generate your public and private keys, and complete your personal profile (name, location, contact info, etc.). You call, fax, or email at least 10 hawaladars who know you, and give them your IP address and ask them to vouch for you.
  • Once 10 other hawaladars have vouched for you, you can start doing other transactions because the protocol encoded in every node will reject a transaction chain that doesn’t start with at least 10 vouches
  • seeding your information with those other peers so you can be found by the rest of the network.
  • As described in the Mutual Credit section, at the time of transaction each party audits the counterparty’s transaction chain.
  • Our hawala crypto-clearinghouse protocol has two categories of transactions: some used for accounting and others for routing. Accounting transactions change balances. Routing transactions maintain network integrity by recording information about hawaladar
  • Accounting Transactions create signed data that changes account balances and contains these fields:
  • The final hash of all of the above fields is used as a unique transaction ID and is what each of party signs with their private keys. Signing indicates a party has agreed to the terms of the transaction. Only transactions signed by both parties are considered valid. Nodes can verify signatures by confirming that decryption of the signature using the public key yields a result which matches the transaction ID.
  • Routing Transactions sign data that changes the peers list and contain these fields:
  • As with accounting transactions, the hash of the above fields is used as the transaction’s unique key and the basis for the cryptographic signature of both counterparties.
  • Remember, instead of making changes to account balances, routing transactions change a node’s local list of peers for finding each other and processing.
  • a distributed network of mutual trust
  • operates across national boundaries
  • everyone already keeps and trusts their own separate records
  • Hawaladars are not anonymous
  • “double-spending”
  • It would be possible for someone to hack the code on their node to “forget” their most recent transaction (drop the head of their chain), and go back to their previous version of the chain before that transaction. Then they could append a new transaction, drop it, and append again.
  • After both parties have signed the agreed upon transaction, each party submits the transaction to separate notaries. Notaries are a special class of participant who validate transactions (auditing each chain, ensuring nobody passes through an invalid state), and then they sign an outer envelope which includes the signatures of the two parties. Notaries agree to run high-availability servers which collectively manage a Distributed Hash Table (DHT) servicing requests for transaction information. As their incentive for providing this infrastructure, notaries get a small transaction fee.
  • This approach introduces a few more steps and delays to the transaction process, but because it operates on independent parallel chains, it is still orders of magnitude more efficient and decentralized than reaching consensus on entries in a global ledger
  • millions of simultaneous transactions could be getting processed by other parties and notaries with no bottlenecks.
  • There are other solutions to prevent nodes from dropping the head of their transaction chain, but the approach of having notaries serve out a DHT solves a number of common objections to completely distributed accounting. Having access to reliable lookups in a DHT provides a similar big picture view that you get from a global ledger. For example, you may want a way to look up transactions even when the parties to that transaction are offline, or to be able to see the net system balance at a particular moment in time, or identify patterns of activity in the larger system without having to collect data from everyone individually.
  • By leveraging Intrinsic Data Integrity to run numerous parallel tamper-proof chains you can enable nodes to do various P2P transactions which don’t actually require group consensus. Mutual credit is a great way to implement cryptocurrencies to run in this peered manner. Basic PKI with a DHT is enough additional infrastructure to address main vulnerabilities. You can optimize your solution architecture by reserving reserve consensus work for tasks which need to guarantee uniqueness or actually involve large scale agreement by humans or automated contracts.
  • It is not only possible, but far more scalable to build cryptocurrencies without a global ledger consensus approach or cryptographic tokens.
  • Tiberius Brastaviceanu on 01 Jun 16
     
    Article written by Arthur Brook, founder of Metacurrency project and of Ceptr.
Tiberius Brastaviceanu

James Grier Miller, Living Systems (1978) - 0 views

www.panarchy.org/...livingsystems.html

Grier Miller living systems theory concepts paper

shared by Tiberius Brastaviceanu on 23 Jun 11 - No Cached
  • reality as an integrated hierarchy of organizations of matter and energy
  • General living systems theory is concerned with a special subset of all systems, the living ones
  • a space is a set of elements which conform to certain postulate
  • ...266 more annotations...
  • s. Euclidean space
  • metric space
  • topological space
  • Physical space is the extension surrounding a point
  • My presentation of a general theory of living systems will employ two sorts of spaces in which they may exist, physical or geographical space and conceptual or abstracted spaces
  • Physical or geographical space
  • Euclidean space
  • distance
  • moving
  • maximum speed
  • objects moving in such space cannot pass through one another
  • friction
  • The characteristics and constraints of physical space affect the action of all concrete systems, living and nonliving.
  • information can flow worldwide almost instantly
  • Physical space is a common space
  • Most people learn that physical space exists, which is not true of many spaces
  • They can give the location of objects in it
  • Conceptual or abstracted spaces
  • Peck order
  • Social class space
  • Social distance
  • Political distance
  • life space
  • semantic space
  • Sociometric space
  • A space of time costs of various modes of transportation
  • space of frequency of trade relations among nations.
  • A space of frequency of intermarriage among ethnic groups.
  • These conceptual and abstracted spaces do not have the same characteristics and are not subject to the same constraints as physical space
  • Social and some biological scientists find conceptual or abstracted spaces useful because they recognize that physical space is not a major determinant of certain processes in the living systems they study
  • interpersonal relations
  • one cannot measure comparable processes at different levels of systems, to confirm or disconfirm cross-level hypotheses, unless one can measure different levels of systems or dimensions in the same spaces or in different spaces with known transformations among them
  • It must be possible, moreover, to make such measurements precisely enough to demonstrate whether or not there is a formal identity across levels
  • fundamental "fourth dimension" of the physical space-time continuum
  • is the particular instant at which a structure exists or a process occurs
  • or the measured or measurable period over which a structure endures or a process continues.
  • durations
  • speeds
  • rates
  • accelerations
  • irreversible unidirectionality of time
  • thermodynamics
  • negentropy
  • "time's arrow."
  • Matter and energy
  • Matter is anything which has mass (m) and occupies physical space.
  • Energy (E) is defined in physics as the ability to do work.
  • kinetic energy
  • potential energy
  • rest mass energy
  • Mass and energy are equivalent
  • Living systems need specific types of matter-energy in adequate amounts
  • Energy for the processes of living systems is derived from the breakdown of molecules
  • Any change of state of matter-energy or its movement over space, from one point to another, I shall call action.
  • It is one form of process.
  • information (H)
  • Transmission of Information
  • Meaning is the significance of information to a system which processes it: it constitutes a change in that system's processes elicited by the information, often resulting from associations made to it on previous experience with it
  • Information is a simpler concept: the degrees of freedom that exist in a given situation to choose among signals, symbols, messages, or patterns to be transmitted.
  • The set of all these possible categories (the alphabet) is called the ensemble or repertoire
  • .) The unit is the binary digit, or bit of information
  • . The amount of information is measured as the logarithm to the base 2 of the number of alternate patterns
  • Signals convey information to the receiving system only if they do not duplicate information already in the receiver. As Gabor says:
  • [The information of a message can] be defined as the 'minimum number of binary decisions which enable the receiver to construct the message, on the basis of the data already available to him.'
  • meaning cannot be precisely measured
  • Information is the negative of uncertainty.
  • information is the amount of formal patterning or complexity in any system.
  • The term marker was used by von Neumann to refer to those observable bundles, units, or changes of matter-energy whose patterning bears or conveys the informational symbols from the ensemble or repertoire.
  • If a marker can assume n different states of which only one is present at any given time, it can represent at most log2n bits of information. The marker may be static, as in a book or in a computer's memory
  • Communication of almost every sort requires that the marker move in space, from the transmitting system to the receiving system, and this movement follows the same physical laws as the movement of any other sort of matter-energy. The advance of communication technology over the years has been in the direction of decreasing the matter-energy costs of storing and transmitting the markers which bear information.
  • There are, therefore, important practical matter-energy constraints upon the information processing of all living systems exerted by the nature of the matter-energy which composes their markers.
  • organization is based upon the interrelations among parts.
  • If two parts are interrelated either quantitatively or qualitatively, knowledge of the state of one must yield some information about the state of the other. Information measures can demonstrate when such relationships exist
  • The disorder, disorganization, lack of patterning, or randomness of organization of a system is known as its entropy (S)
  • the statistical measure for the negative of entropy is the same as that for information
  • entropy becomes a measure of the probability
  • Increase of entropy was thus interpreted as the passage of a system from less probable to more probable states.
  • according to the second law, a system tends to increase in entropy over time, it must tend to decrease in negentropy or information.
  • therefore no principle of the conservation of information
  • The total information can be decreased in any system without increasing it elsewhere
  • but it cannot be increased without decreasing it elsewhere
  • . Making one or more copies of a given informational pattern does not increase information overall, though it may increase the information in the system which receives the copied information.
  • transforms information into negative entropy
  • smallest possible amount of energy used in observing one bit of information
  • calculations of the amount of information accumulated by living systems throughout growth.
  • the concept of Prigogine that in an open system (that is one in which both matter and energy can be exchanged with the environment) the rate of entropy production within the system, which is always positive, is minimized when the system is in a steady state.
  • in systems with internal feedbacks, internal entropy production is not always minimized when the system is in a stationary state. In other words, feedback couplings between the system parameters may cause marked changes in the rate of development of entropy. Thus it may be concluded that the "information flow" which is essential for this feedback markedly alters energy utilization and the rate of development of entropy, at least in some such special cases which involve feedback control. While the explanation of this is not clear, it suggests an important relationship between information and entropy
  • amount of energy actually required to transmit the information in the channel is a minute part of the total energy in the system, the "housekeeping energy" being by far the largest part of it
  • In recent years systems theorists have been fascinated by the new ways to study and measure information flows, but matter-energy flows are equally important. Systems theory is more than information theory, since it must also deal with energetics - such matters as
  • the flow of raw materials through societies
  • Only a minute fraction of the energy used by most living systems is employed for information processing
  • I have noted above that the movement of matter-energy over space, action, is one form of process. Another form of process is information processing or communication, which is the change of information from one state to another or its movement from one point to another over space
  • Communications, while being processed, are often shifted from one matter-energy state to another, from one sort of marker to another
  • transformations go on in living systems
  • One basic reason why communication is of fundamental importance is that informational patterns can be processed over space and the local matter-energy at the receiving point can be organized to conform to, or comply with, this information
  • the delivery of "flowers by telegraph."
  • Matter-energy and information always flow together
  • Information is always borne on a marker
  • . Conversely there is no regular movement in a system unless there is a difference in potential between two points, which is negative entropy or information
  • If the receiver responds primarily to the material or energic aspect, I shall call it, for brevity, a matter-energy transmission; if the response is primarily to the information, I shall call it an information transmission
  • Moreover, just as living systems must have specific forms of matter-energy, so they must have specific patterns of information
  • example
  • example
  • develop normally
  • have appropriate information inputs in infancy
  • pairs of antonyms
  • one member of which is associated with the concept of information (H)
  • the other member of which is associated with its negative, entropy (S)
  • System
  • A system is a set of interacting units with relationships among them
  • .The word "set" implies that the units have some common properties. These common properties are essential if the units are to interact or have relationships. The state of each unit is constrained by, conditioned by, or dependent on the state of other units. The units are coupled. Moreover, there is at least one measure of the sum of its units which is larger than the sum of that measure of its units.
  • Conceptual system
  • Units
  • terms
  • Relationships
  • a set of pairs of units, each pair being ordered in a similar way
  • expressed by words
  • or by logical or mathematical symbols
  • operations
  • The conceptual systems of science
  • observer
  • selects
  • particular sets to study
  • Variable
  • Each member of such a set becomes a variable of the observer's conceptual system
  • conceptual system may be loose or precise, simple or elaborate
  • Indicator
  • an instrument or technique used to measure fluctuations of variables in concrete systems
  • Function
  • a correspondence between two variables, x and y, such that for each value of x there is a definite value of y, and no two y's have the same x, and this correspondence is: determined by some rule
  • Any function is a simple conceptual system
  • Parameter
  • An independent variable through functions of which other functions may be expressed
  • The state of a conceptual system
  • the set of values on some scale, numerical or otherwise, which its variables have at a given instant
  • Formal identity
  • variables
  • varies comparably to a variable in another system
  • If these comparable variations are so similar that they can be expressed by the same function, a formal identity exists between the two systems
  • Relationships between conceptual and other sorts of systems
  • Science advances as the formal identity or isomorphism increases between a theoretical conceptual system and objective findings about concrete or abstracted systems
  • A conceptual system may be purely logical or mathematical, or its terms and relationships may be intended to have some sort of formal identity or isomorphism with units and relationships empirically determinable by some operation carried out by an observer
  • Concrete system
  • a nonrandom accumulation of matter-energy, in a region in physical space-time, which is organized into interacting interrelated subsystems or components.
  • Units
  • are also concrete systems
  • Relationships
  • spatial
  • temporal
  • spatiotemporal
  • causal
  • Both units and relationships in concrete systems are empirically determinable by some operation carried out by an observer
  • patterns of relationships or processes
  • The observer of a concrete system
  • distinguishes a concrete system from unorganized entities in its environment by the following criteria
  • physical proximity of its units
  • similarity of its units
  • common fate of its units
  • distinct or recognizable patterning of its units.
  • Their boundaries are discovered by empirical operations available to the general scientific community rather than set conceptually by a single observer
  • Variable of a concrete system
  • Any property of a unit or relationship within a system which can be recognized by an observer
  • which can potentially change over time, and whose change can potentially be measured by specific operations, is a variable of a concrete system
  • Examples
  • number of its subsystems or components, its size, its rate of movement in space, its rate of growth, the number of bits of information it can process per second, or the intensity of a sound to which it responds
  • A variable is intrasystemic
  • not to be confused with intersystemic variations which may be observed among individual systems, types, or levels.
  • The state of a concrete system
  • its structure
  • represented by the set of values on some scale which its variables have at that instant
  • Open system
  • Most concrete systems have boundaries which are at least partially permeable, permitting sizable magnitudes of at least certain sorts of matter-energy or information transmissions to pass them. Such a system is an open system. In open systems entropy may increase, remain in steady state, or decrease.
  • Closed system
  • impermeable boundaries through which no matter-energy or information transmissions of any sort can occur is a closed system
  • special case
  • No actual concrete system is completely closed
  • In closed systems, entropy generally increases, exceptions being when certain reversible processes are carried on which do not increase it. It can never decrease.
  • Nonliving system
  • the general case of concrete systems, of which living systems are a very special case. Nonliving systems need not have the same critical subsystems as living systems, though they often have some of them
  • Living system
  • a special subset of the set of all possible concrete systems
  • They all have the following characteristics:
  • open systems
  • inputs
  • throughputs
  • outputs
  • of various sorts of matter-energy and information.
  • maintain a steady state of negentropy even though entropic changes occur in them as they do everywhere else
  • by taking in inputs
  • higher in complexity or organization or negentropy
  • than their outputs
  • The difference permits them to restore their own energy and repair breakdowns in their own organized structure.
  • In living systems many substances are produced as well as broken down
  • To do this such systems must be open and have continual inputs of matter-energy and information
  • entropy will always increase in walled-off living systems
  • They have more than a certain minimum degree of complexity
  • They either contain genetic material composed of deoxyribonucleic acid (DNA)
  • or have a charter
  • blueprint
  • program
  • of their structure and process from the moment of their origin
  • may also include nonliving components.
  • They have a decider, the essential critical sub-system which controls the entire system, causing its subsystems and components to interact. Without such interaction under decider control there is no system.
  • other specific critical sub-systems or they have symbiotic or parasitic relationships with other living or nonliving systems
  • Their subsystems are integrated together to form actively self-regulating, developing, unitary systems with purposes and goals
  • They can exist only in a certain environment
  • change in their environment
  • produces stresses
  • Totipotential system
  • capable of carrying out all critical subsystem processes necessary for life is totipotential
  • Partipotential system
  • does not itself carry out all critical subsystem processes is partipotential
  • A partipotential system must interact with other systems that can carry out the processes which it does not, or it will not survive
  • parasitic
  • symbiotic
    • Tiberius Brastaviceanu
      Tiberius Brastaviceanu on 25 Jun 11
       
      The Exchange fime is a symbiotic system to SENSORICA
  • Fully functioning system
  • when it
  • Partially functioning system
  • it must do its own deciding, or it is not a system
  • Abstracted system
  • Units
  • relationships abstracted or selected by an observer in the light of his interests, theoretical viewpoint, or philosophical bias.
  • Some relationships may be empirically determinable by some operation carried out by the observer, but others are not, being only his concepts
  • Relationships
  • The relationships mentioned above are observed to inhere and interact in concrete, usually living, systems
  • these concrete systems are the relationships of abstracted systems.
  • The verbal usages of theoretical statements concerning abstracted systems are often the reverse of those concerning concrete systems
  • An abstracted system differs from an abstraction, which is a concept
  • representing a class of phenomena all of which are considered to have some similar "class characteristic." The members of such a class are not thought to interact or be interrelated, as are the relationships in an abstracted system
  • Abstracted systems are much more common in social science theory than in natural science.
  • are oriented toward relationships rather than toward the concrete systems
  • spatial arrangements are not usually emphasized
  • their physical limits often do not coincide spatially with the boundaries of any concrete system, although they may.
  • important difference between the physical and biological hierarchies, on the one hand, and social hierarchies, on the other
  • Most physical and biological hierarchies are described in spatial terms
  • we propose to identify social hierarchies not by observing who lives close to whom but by observing who interacts with whom
  • intensity of interaction
  • in most biological and physical systems relatively intense interaction implies relative spatial propinquity
  • To the extent that interactions are channeled through specialized communications and transportation systems, spatial propinquity becomes less determinative of structure.
    • Tiberius Brastaviceanu
      Tiberius Brastaviceanu on 25 Jun 11
       
      This is the case of SENSORICA, built on web-based communication and coordination tools. 
  • PARSONS
  • the unit of a partial social system is a role and not the individual.
  • culture
  • cumulative body of knowledge of the past, contained in memories and assumptions of people who express this knowledge in definite ways
  • The social system is the actual habitual network of communication between people.
  • RUESCH
  • A social system is a behavioral system
  • It is an organized set of behaviors of persons interacting with each other: a pattern of roles.
  • The roles are the units of a social system
    • Tiberius Brastaviceanu
      Tiberius Brastaviceanu on 25 Jun 11
       
      That is why we need a role system in SENSORICA
  • On the other hand, the society is an aggregate of social subsystems, and as a limiting case it is that social system which comprises all the roles of all the individuals who participate.
  • What Ruesch calls the social system is something concrete in space-time, observable and presumably measurable by techniques like those of natural science
  • To Parsons the system is abstracted from this, being the set of relationships which are the form of organization. To him the important units are classes of input-output relationships of subsystems rather than the subsystems themselves
  • system is a system of relationship in action, it is neither a physical organism nor an object of physical perception
  • evolution
  • differentiation
  • growth
  • from earlier and simpler forms and functions
  • capacities for specializations and gradients
  • [action] is not concerned with the internal structure of processes of the organism, but is concerned with the organism as a unit in a set of relationships and the other terms of that relationship, which he calls situation
  • Abstracted versus concrete systems
  • One fundamental distinction between abstracted and concrete systems is that the boundaries of abstracted systems may at times be conceptually established at regions which cut through the units and relationships in the physical space occupied by concrete systems, but the boundaries of these latter systems are always set at regions which include within them all the units and internal relationships of each system
  • A science of abstracted systems certainly is possible and under some conditions may be useful.
  • If the diverse fields of science are to be unified, it would be helpful if all disciplines were oriented either to concrete or to abstracted systems.
  • It is of paramount importance for scientists to distinguish clearly between them
Kurt Laitner

Club of Amsterdam blog: The impact of culture on education - 0 views

clubofamsterdam.blogspot.nl/...t-of-culture-on-education.html

metrics values context paper blog

shared by Kurt Laitner on 22 Jan 14 - No Cached
  • For example in some countries the objective of education is: to develop a critical mind, which in other cultures is viewed as absurd. In these countries students are supposed to try to learn as much as possible from the older generation and only when you are fully initiated you may communicate to have ideas of yourself.
  • For example in some countries the objective of education is: to develop a critical mind, which in other cultures is viewed as absurd. In these countries students are supposed to try to learn as much as possible from the older generation and only when you are fully initiated you may communicate to have ideas of yourself.
  • The combined scores for each country explain variations in behavior of people and organizations. The scores indicate the relative differences between cultures.
  • ...13 more annotations...
  • n masculine cultures like USA, UK, Germany, Japan and Italy the dominant values are achievement and success. The dominant values in feminine cultures are consensus seeking, caring for others and quality of life. Sympathy is for the underdog. People try to avoid situations distinguishing clear winners and losers.  In masculine cultures performance and achievement are important. The sympathy is for the winners. Status is important to show success. Feminine cultures like the Scandinavian countries and the Netherlands have a people orientation. Small is beautiful and status is not so important.
  • In masculine cultures like USA, UK, Germany, Japan and Italy the dominant values are achievement and success. The dominant values in feminine cultures are consensus seeking, caring for others and quality of life. Sympathy is for the underdog. People try to avoid situations distinguishing clear winners and losers.  In masculine cultures performance and achievement are important. The sympathy is for the winners. Status is important to show success. Feminine cultures like the Scandinavian countries and the Netherlands have a people orientation. Small is beautiful and status is not so important.
  • In masculine cultures like USA, UK, Germany, Japan and Italy the dominant values are achievement and success. The dominant values in feminine cultures are consensus seeking, caring for others and quality of life. Sympathy is for the underdog. People try to avoid situations distinguishing clear winners and losers.  In masculine cultures performance and achievement are important. The sympathy is for the winners. Status is important to show success. Feminine cultures like the Scandinavian countries and the Netherlands have a people orientation. Small is beautiful and status is not so important.
  • For example in some countries the objective of education is: to develop a critical mind, which in other cultures is viewed as absurd. In these countries students are supposed to try to learn as much as possible from the older generation and only when you are fully initiated you may communicate to have ideas of yourself.
  • c. Masculinity vs. Femininity (MAS) In masculine cultures like USA, UK, Germany, Japan and Italy the dominant values are achievement and success. The dominant values in feminine cultures are consensus seeking, caring for others and quality of life. Sympathy is for the underdog. People try to avoid situations distinguishing clear winners and losers.  In masculine cultures performance and achievement are important. The sympathy is for the winners. Status is important to show success. Feminine cultures like the Scandinavian countries and the Netherlands have a people orientation. Small is beautiful and status is not so important.
  • He defines culture as “the collective programming of the mind that distinguishes the members of one group or category of people from others”.
  • Analyzing his data, Hofstede found five value clusters (or “dimensions”) being the most fundamental in understanding and explaining the differences in answers to the single questions in his questionnaires
  • The five dimensions of national culture identified by Hofstede are:  Power Distance Index (PDI)  Individualism vs. collectivism (IDV)  Masculinity vs. femininity (MAS)  Uncertainty Avoidance Index (UAI)  Long Term Orientation (LTO)
  • Power distance is the extent to which less powerful members of a society accept that power is distributed unequally. In high power-distance cultures everybody has his/her rightful place in society. Old age is respected, and status is important. In low power-distance cultures people try to look younger and powerful people try to look less powerful
  • In individualistic cultures, like almost all the rich Western countries, people look after themselves and their immediate family only; in collectivist cultures like Asia and Africa people belong to "in-groups" who look after them in exchange for loyalty
  • In masculine cultures like USA, UK, Germany, Japan and Italy the dominant values are achievement and success. The dominant values in feminine cultures are consensus seeking, caring for others and quality of life. Sympathy is for the underdog. People try to avoid situations distinguishing clear winners and losers.  In masculine cultures performance and achievement are important. The sympathy is for the winners. Status is important to show success. Feminine cultures like the Scandinavian countries and the Netherlands have a people orientation. Small is beautiful and status is not so important
  • Uncertainty avoidance (or uncertainty control) stands for the extent to which people feel threatened by uncertainty and ambiguity. In cultures with strong uncertainty avoidance, people have a strong emotional need for rules and formality to structure life
  • The last element of culture is the Long Term Orientation which is the extent to which a society exhibits a future-orientated perspective rather than a near term point of view.  Low scoring countries like the USA and West European countries are usually those under the influence of monotheistic religious systems, such as the Christian, Islamic or Jewish systems. People in these countries believe there is an absolute and indivisible truth. In high scoring countries such as Hong Kong, Taiwan, China, for example those practicing Buddhism, Shintoism or Hinduism,  people believe truth depends on time, context and situation
  • Kurt Laitner on 22 Jan 14
     
    has explanatory power over many of the fundamental disagreements I have seen play out in sensorica discussions - may be worthwhile to understand constituents based on this model
Kurt Laitner

How Many Kinds of Property are There? - 0 views

www.nakedcapitalism.com/...-kinds-property-two-three.html

property governance paper

shared by Kurt Laitner on 03 Feb 14 - No Cached
  • Whenever a group of people depend on a resource that everybody uses but nobody owns, and where one person’s use effects another person’s ability to use the resource, either the population fails to provide the resource, overconsumes and/or fails to replenish it, or they construct an institution for undertaking and managing collective action.
  • Common-pool resources may be owned by national, regional, or local [1]governments; by [2] communal groups; by [3] private individuals or corporations; or used as open access resources by whomever can gain access
  • Based on her survey, Ostrom distilled this list of common design principles from the experience of successful governance institutions: Clearly defined boundaries. Individuals or households who have rights to withdraw resource units from the CPR must be clearly defined, as must the boundaries of the CPR itself. Congruence between appropriation and provision rules and local conditions. Appropriation rules restricting time, place, technology, and/or quantity of resource units are related to local conditions and to provision rules requiring labour, material, and/or money. Collective-choice arrangements. Most individuals affected by the operational rules can participate in modifying the operational rules [how refreshing. Standing!]. Monitoring. Monitors, who actively audit CPR conditions and appropriator behavior, are accountable to the appropriators or are the appropriators. Graduated sanctions. Appropriators who violate operational rules are likely to be assessed graduated sanctions (depending on the seriousness and context of the offence) by other appropriators, by officials accountable to these appropriators, or by both. Conflict-resolution mechanisms. Appropriators and their officials have rapid access to low-cost local arenas to resolve conflicts among appropriators or between appropriators and officials. Minimal recognition of rights to organize. The rights of appropriators to devise their own institutions are not challenged by external governmental authorities. For CPRs that are parts of larger systems: Nested enterprises. Appropriation, provision, monitoring, enforcement, conflict resolution, and governance activities are organized in multiple layers of nested enterprises.
  • Kurt Laitner on 03 Feb 14
     
    Good review of Ostrom and Bollier's definitions of commons and governance approaches to this property class
  • Tiberius Brastaviceanu on 07 Feb 23
     
    This paper is mostly about commons... the title is misleading.
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