Technically speaking, in the P2P Energy Economy, tokens of the currency (i.e. money) are created in proportion to the increase in the amount of electric energy flow from nodes with energy surplus to nodes with energy deficit, including households, charging stations, electric vehicle grid, and neighboring communities, which is then converted by those nodes into new work energy, which gives the tokens a real and absolute work value (in joules) in spent energy, which enables its use in trading the goods and services defined under this economy, at the cost of energy it takes to produce and deliver them.
To restate this in plain English, it suffice it to say that in the P2P Energy Economy all work energy is equal because all work energy is measured using the same absolute-value unit, i.e. the Joule, so a dentist's work energy is not any more valuable than a teacher's work energy, while still allowing those who work harder (produce more work energy) to get more back. In other words, it values all work energy equally while allowing people to work as hard and smart as they are capable of and get compensated proportionately, with increased sales and/or increased profit through higher production efficiencies.
In other words, in the P2P Energy Economy, work-as-a-service is priced at the [median] cost in work energy it takes to produce and deliver that service, counting all inputs, e.g. education, experience, R&D, equipment, etc in the cost-of-work-energy calculation.
In order to trade at cost of work energy in goods and services, including work-as-a-service, the conditions of sustainable abundance, given below, must be met for all goods and services to be traded under this model. These conditions, when combined with the currency defined under this model, enable a complete departure from today's scarcity enforcing economic model by allowing everyone who wishes to get a given good or service to do so at the absolute work value of the energy it takes to produce and deliver that good or service (see: Trading at Cost with Joule Tokens.)
When the above conditions are met, for any given good or service, that good or service should be available to everyone who wishes to have at the cost of energy it takes to produce and deliver it.
So if health care (as a service) was to meet the above conditions then a visit to the dentist should not cost more than what it takes in total work energy to produce and deliver it. But in order for health care to meet the sustainable abundance conditions one of the first things that has to happen is automation, not just of IT but of medical procedures. For examples, today, robots are used by surgeons to perform sensitive surgeries to remove tumors with a much greater degree of accuracy than procedures performed by hand. It is very possible to replace the surgeon altogether with robotic surgeon technology that can visualize the tumor in 3D to the finest detail and use a combination of focused radiation beam (or gamma ray laser) to annihilate the tumor in place. It would take a few minutes and a relatively small amount of electricity. The second step in the process of making this type of surgery (as a service) sustainably abundant, the robot technology has to be open sourced and copied at no charge by anyone wishing to manufacture the robot, under a license where the originator only gets to enforce social and moral rights, e.g. attribution, share-alike, etc.
So if everyone who wish to get a given good or service can do so at the cost in work energy it takes to deliver that good or service then why not just give everything and get everything for free? Why do we need a currency? The answer is that a gift economy is less efficient than a barter economy which is less efficient than a currency based economy.
The hard problem here is figuring out the energy costing models for the types of goods and services that fulfill the sustainable abundance criteria given above.
We can know how much it takes in energy (calories) per day to keep a 25 year old human being functioning, and we can estimate the other costs of living in terms of the work energy required to maintain living conditions. We can also know the energy use of various processes used in producing and delivering a given good or service. Assuming the given good or service meets the above-mentioned criteria for sustainable abundance, i.e. no dependence on scarcity economics, we can measure the energy it takes to produce and deliver that good or service, and, using historical sales data, we can adjust that eventually to be based on an average volume of production for that good or service (instead of raw estimate) and then calculate the price as the median cost in energy it takes to produce and deliver that good or service, per each instance of that good or service.
Such calculation involves building realistic energy costing models (for the various goods and services that meet the sustainable abundance criteria,) and when it's automated it via cost estimation software (as part of the P2P trading application) it offers us the opportunity to understand the real cost of production to ourselves and the environment.
When it comes to rewarding those who work harder and smarter, the model fully supports that through two different paths:
The logic behind 'All Work Is Created Equal' is based on the fact that all goods and services covered by the model, i.e. those that meet the aforementioned conditions of sustainable abundance, do not have any scarce dependencies, such as an expensive (scarce) engineering degree.
With schools like MIT and Stanford supporting the sustainable abundance of education by open sourcing their course materials educating an engineer becomes attainable at the cost in work energy it takes to produce and deliver the course materials and virtual lab tools etc. That cost is the only cost the engineer being educated has to pay for (in joule tokens) as far as education (knowledge) itself. The cost in work energy it takes to keep the engineer functioning and maintain living conditions, during the time he or she is learning a given subject/trade/skill, is an investment being made by them in their future, which the person has to recoup from all goods and services they produce in the future.
There is also the cost in work energy it takes to keep the person functioning and maintain living conditions, during the time the person is producing and delivering a given good or service, and this cost in work energy, as well as all other costs in work energy involved, would be based on a relatively simple 'work energy' costing model that provides an average or baseline cost.
And, finally, there is the cost in work energy it takes to produce a good or service (ones that meet the aforementioned sustainable abundance conditions) which can have many other dependencies (that must also meet the aforementioned sustainable abundance conditions.)
So we have four (4) main inputs so far to the cost of work energy it takes the engineer to produce a given good or service, e.g. a chip design, which is carried forward as an input into the cost of energy it takes to produce and deliver the good or service.
What we're looking at is a tree of costs (in work energy) for each given good or service (for goods and services that meet aforementioned sustainable abundance conditions,) where all dependencies (for a given good or service) and the good or service itself must meet the aforementioned sustainable abundance conditions. The dependencies have to fit the dependency template for the given good or service, such that all the main inputs are identified and the 'work energy' costing models for all those inputs are used, in the cost estimation software (that's part of the P2P trading application,) together with user-set parameters for the given production and delivery processes (which are part of the overall 'work energy' costing model for the given good or service,) to come up with the total cost in work energy for a given good or service, which is then fed by each producer of the given good or service into the Energy Cost Registry (and becomes valuable data for improving production and delivery processes) and used to calculate the median cost in work energy for producing and delivering that good or service, which becomes the price for that good or service, update-able every 10 years or so as production efficiencies increase.
Since the volume of production affects the cost of energy for producing and delivering a given good or service, the energy costing models used by the estimation software (that is part of the P2P trading application) should assume an average volume of production based on historical sales data from all the producers of the given good or service, as reported by their inventory management system. In other words, pricing (or costing) is based on the median cost of energy for producing and delivering a given good or service at the average volume of production for that good or service.
It's an important consideration for producers to make sure that the total cost in work energy for producing and delivering a given good or service is recoup-able in full based on the historical sales data the producer has for the given good or service, as provided by their inventory system, so that they don't suffer losses due to over production, especially since losses, under this model, cannot be recouped from the market(e.g. by dumping excess at lower-than-cost and killing off competition then raising prices to recoup the loss.)
Producing a volume (of the given good or service) above predicted short-term demand, as given by the producer's predictive inventory system, is a risk the producer must take alone without punishing the consumer or other producers, and they must do so by making sure that their total cost in work energy for producing and delivering a given good or service is recoup-able based on the historical sales data for the given product or service, as reported by their personal inventory management system, which is built into the P2P trading application used for trading.)
The result of trading in goods and services at the cost of work energy it takes to produce and deliver them is that, unless one manages to produce and deliver the good and service with less work energy than other producers of the same good or service, producers will get back the same amount of work energy in joule tokens as they put in. And since people can sell their own produced energy, goods or services for joule tokens at the work value of energy and at cost in work energy it takes to produce and deliver those goods and services, respectively, and use those joule tokens to get the goods and services they need at the cost in work energy it takes to produce and deliver those goods and services, they can go on living indefinitely without the need to generate 'profits.'
Therefore, the thirst for artificial motivation in the form of profits (i.e. greed) is out of the picture, which means that people will only do the work (to produce and deliver a good or service) if and only if they love the work.
It also means that, since no one has to work unless they love their work, no one will need -or have any incentive- to work for another person, which means that most people will be both consumers as well as producers of goods and services, or "prosumers.
Given continuous technological progress, work done today should take less energy to do in the future.
While that's true for the current economy, the P2P Energy Economy channels the profit motive (or greed) into achieving higher and higher efficiencies in the use of energy (in producing and delivering products and services,) since that is the only way profit can be achieved in the P2P Energy Economy, so given the currency does not lose its work value in energy more and more can be purchased with less and less currency.
In today's economy socially, environmentally and ecologically conscious producers of goods and services are beginning to see increased sales, but only in very limited niches and local markets.
In the P2P Energy Economy consumers identify, as part of each purchase of goods or services, the required attributes (for the given good or service) as well as their social, environmental and ecological values, which allows them to find producers (of the given good or service) who support their values. This means that money flows more in sync with society's values.
In the P2P Energy Economy, in order for producers to grow their revenue they have to share it with others.
The way it works is by rewarding producers who lend money to others (with no interest) with bigger access to the market, such that the more they lend the bigger their to the market.
In the current economy, reliance on one or few major players in each given market has created an unsustainable system. When the top 2 or 3 investment banks in each country failed the entire global financial industry collapsed, which has caused the global economy to falter (search: global economic meltdown 2008.)
In the P2P Energy Economy, increased autonomy is achieved by putting power with the whole rather than with one or few major players.
The current economic meltdown (search: global economic meltdown 2008) is a proof that we have reached or are reaching the limits of sustainability for the current economic paradigm, and that 'peer production' (the production of energy, goods and services by individuals as opposed to utilities and factories,) will make the system dependent on the people as a whole, instead of on one or few major players, which, as we can see, based on the current paradigm, makes the people dependent on the system and renders them helpless in times of instability, thus perpetuating and even deepening their dependence on the system.
The key concept behind the P2P Energy Economy is that it replaces increased dependence by the people on the system (i.e. on the major players) with increased inter-dependence between equally empowered peers, which puts the power with the whole and allows both the individual and the system to enjoy true autonomy.
Monopolies are eliminated in the P2P Energy Economy due to the following conditions:
The P2P Energy Economy fuses the latest advances in SmartGrid technology, P2P trading and lending, and P2P energy production (from renewables) into a unique economic model, including a new kind of currency, designed to work with the growing category of goods and services that can be produced on sustainable, abundant basis.
The benefits of the P2P Energy Economy are summarized below:
The following sections of the User Manual describe the above benefits in a broader context.
The idea is to enable access to money based on the total work energy the producer puts in and their creativity, not based on their place in the hierarchy or their exclusive access to better education.
Technically speaking, in the P2P Energy Economy, tokens of the currency (i.e. money) are created in proportion to the increase in the amount of electric energy flow from nodes with energy surplus to nodes with energy deficit, including households, charging stations, electric vehicle grid, and neighboring communities, which is then converted by those nodes into new work energy, which gives the tokens a real and absolute work value (in joules) in spent energy, which enables its use in trading the goods and services defined under this economy, at the cost of energy it takes to produce and deliver them.
To restate this in plain English, it suffice it to say that in the P2P Energy Economy all work energy is equal because all work energy is measured using the same absolute-value unit, i.e. the Joule, so a dentist's work energy is not any more valuable than a teacher's work energy, while still allowing those who work harder (produce more work energy) to get more back. In other words, it values all work energy equally while allowing people to work as hard and smart as they are capable of and get compensated proportionately, with increased sales and/or increased profit through higher production efficiencies.
In other words, in the P2P Energy Economy, work-as-a-service is priced at the [median] cost in work energy it takes to produce and deliver it, counting all inputs, e.g. education, experience, R&D, equipment, etc in the cost-of-work-energy calculation.
In order to trade at cost of work energy in goods and services, including work-as-a-service, the conditions of sustainable abundance, given below, must be satisfied. These conditions, when combined with the currency defined under this model (see: Joule Tokens,) enable a radical departure from today's scarcity enforcing economic model by allowing everyone who wishes to get a given good or service to do so at the absolute work value of the energy it takes to produce and deliver that good or service (see: Trading at Cost with Joule Tokens.)
When the above conditions are met for a given industry the good or services in that industry should be available to everyone who wishes to have them at the cost of energy it takes to produce and deliver them.
So if health care (as an industry) was to meet the above conditions then a visit to the dentist should not cost more than what it takes in total work energy to produce and deliver it. But in order for health care to meet the sustainable abundance conditions one of the first things that has to happen is automation, not just of IT but of medical procedures. For examples, today, robots are used by surgeons to perform sensitive surgeries to remove tumors with a much greater degree of accuracy than procedures performed by hand. It is very possible to replace the surgeon altogether with robotic surgeon technology that can visualize the tumor in 3D to the finest detail and use a combination of focused radiation beam (or gamma ray laser) to annihilate the tumor in place. It would take a few minutes and a relatively small amount of electricity. The second step in the process of making this type of surgery (as a service) sustainably abundant, the robot technology has to be open sourced and copied at no charge by anyone wishing to manufacture the robot, under a license where the originator only gets to enforce social and moral rights, e.g. attribution, share-alike, etc.