Recently we were discussing self replicating machines as a way to organize an easily scalable mass production lines in modern world (take a look at it in physics.stackexchange and ai.stackexchange).
There we came to an idea that there are completely no technical troubles with it, the main problem with it is just in appropriate fundings.
As often seen in modern science/research/development, the only problem is with funding. The problems with this scale require some solid funds for a large amount of time. That is not compatible with modern financial world, that is aiming at low term profits in simple stuff. Both states and commercial sectors (venture firms) are not currently able or willing to fund it due to uncertainties.
Continue reading “Cross-state global research and development funds”
The ability to create self-replicating machines can give some very useful benefits. So what is the problem with creating this type of stuff?
Let’s say we have two pieces of equipment – 3d printers and robotic arms. These items are already available and are easy to create.
It looks like they are enough to create self replicating machines. 3d printers are able to print any details for arms and printers. Robotic arms are able to assemble other arms and printers. Both equipment items are able to create almost any other kind of stuff.
Basically, both arms (i.e. manipulators) and 3d printers consist of servomotors, wires, chips and structural mechanical elements. They all can be easily 3d printed, that’s no doubt I guess.
Continue reading “Self-replicating machines for easily scalable production”
I have recently read a modern book on neural systems in biology and found a lot of misconceptions between current models and real systems.
At first, real neurons use both inhibitory (negative, -) and motor (positive, +) actions, that corresponds to both negative and positive neuronal weights (between -1 and 1). But it seems like in lots of models neurons use only motor actions in range (0;1).
Also it looks like real neural systems are predefined by design using genes. For example, all sensory data (audio, visual and somatosensory) use the same pathways – at first to talamus, then to primary cortex areas (like V1 for vision) using the same pattern between standard 6 neuronal layers in cortex. This talamus-cortex path pattern always send (+) data to layer #4, it sends to processing layers 1-3. Layers 1-3 sends (+) data to layer #5 that resends it (+) to layer #6, which in turn is able to send both (+,-) data to layer #4 and back to talamus (regulating feedback).
Continue reading “Neural networks in models and in reality”
It looks like there are some common major problems in modern economic systems when employing people to work.
At first, some people stay without work in unemployment and suffer from the lack of funds without salary. The second problem is with working people – they always suffer from overworking (5 days and 8 hours shifts, limit of vacation and almost no time to stay with family) and are often quite bored and lack energy to do everything with joy and fun.
So why just not using floating working shifts to solve both problems ? Let’s say we have a 3 working days a week 6 hours shifts for an average workers for example. Thus we are able to both reduce load to the ones who are already working and to hire the ones who suffer without employment.
Continue reading “Total employment and floating work shifts in macroeconomics”
Well there are lots of ideas about different types of values/goods and the common medium among them – the money.
There were tons of debates on gold standards and pure fiat types of money.
But what about something very simple and able to convert to everything we need – the energy ?
This substance is conserved due to the very heavily tested and solid fundamental conservation of energy principles in modern physics.
Also it can be generated, stored, transported and converted to any kind in any possible scenarios – mechanical movement of objects or thermal.
To make things simple let’s take a look at its form of electricity – it can be easily generated and converted to all we need – constructions/food/heating/transport/communications/applied goods.
It cannot be inflated/deflated and its cost doesn’t grade with time.
The energy couldn’t be destroyed or made from nothing – it is a basic physical phenomena.
So to make it a kind of a money we just need to create common effective converters and transport system with minimized transport costs.
This can be easily made with superconductors – the loss of energy on transportation is about zero.
So the question is – why not using energy (for example in form of electricity) as a kind of really universal money ?
Feel free to add some meaningful comments for this topic in our Economics StackExchange discussion.
So lets get back to the basics in electricity.
As everyone knows, electric current is just a flow of charged particles, so there is no special about it.
But what about the type of particles and the differences of produced currents.
To make things simple let’s take a look at 2 basic charged particles – protons and electrons.
They have the same charge, but with the opposite sign. Also electron weights about 2000 times less compared to proton.
As far as I understand, in electric appliances we use only electron currents. They originate as flow of electrons in the crystallic structures of atoms in conductors between protons (just like Dirac’s concept, it is an ocean of electrons).
But what happens if we choose protons as a charge carrier ?
Since it is much heavier with the same charge, it’s current flow will produce much more work – just about proportionally the weight ratio.
And also it is quite ineffective to use light electrons in heating elements and appliances like electric transport devices (cars, scooters, planes, helicopters and drones).
So my guess is that electrons currents are good at communications with low losses. But when it comes to heavy work or heating, protons currents are about 2000 times more effective as much more massive particles.
So the question is – why aren’t we still using proton currents – are there some technical difficulties about generating or transporting it ?
Also is it possible to generate the opposite flows of particles with the same charge value, but much differences in weights ?
That would allow us to create devices to get 2000 times increasing force just by generating small amounts of electrons with no problems with energy conservation laws.
Feel free to add some reasonable comments for this topic in our Physics StackExchange discussions.
Well, when it comes to electricity generation it is important to design units to be scalable enough.
With wind turbines becoming popular nowadays it is very important.
As you know, currently wind turbines are placed on surface, mostly at hills and small mountains.
But why placing it on surface, where the wind speed is very limited ?
Why not placing it in some cloudy heights, where the wind constantly flows at really large speeds 24 hours a day ?
One can argue that it is technically difficult to get heavy turbines at heights and costly transport energy to the land via cables.
But what about using wind kite farm cell structs ?
These kind of units can be easily scaled via structs attachments and are capable of carrying huge amounts of generating fans.
Moreover, in this case there is no need of placing heavy generators in kites and send them to air.
You can easily transfer the torque moment from fans in the air to the generators on land using the cords, connecting the kite to the land.
That means it is easy to create really large generating volumes in the air and transfer huge amounts of useful work to the land.
Also kites and fans are very cheap in mass production and can be easily installed almost anywhere.
If you think that wind power is just not enough – think about heavy hurricanes and typhoons that deal really a lot of damage to civilians all around the world.
This scalable devices can easily dissipate all that energy and convert it to useful electricity.
I guess an array of 10-50 small cheap generating cubes like 100-400 meters in length can easily handle small hurricanes.
So why are we still using ineffective heavy structures with generators instead of this kind of structs ?
For more discussions on this topic – take a look at stack physics
As you know, currently grown organic plant food (like rice and wheat for example) is grown using flat 2d approach with just one floor of seeds on surface.
Using that lots of people start to talk about lack of food due to the population increase on the limited surface of our planet.
It also produces other harmful events like deforestation and wildlife problems due to the increasing surface for food plantations.
But what about going 3d production instead of current 2d surface cultivation to handle it ?
Since plants are the basis of ecology chains, that looks like really important.
Just imagine simple 3d cell frame structures with plants growing in volume in it nodes.
One can argue to the problems with light, but it can easily be handled with artificial additional lightning.
Problems with soil can be handled with artificial substrats and hydroponics.
So let’s define a simple model, applicable almost everywhere and try to estimate its costs.
If we want to grow plants almost everywhere, let’s start with hydroponics compact 3d frames using artificial soils and artificial phyto lights.
To make things really simple and reasonable we will assume large autofilling tank of water above this structure that drop water using controlled cranes to all nodes of frame via tubes.
Let’s estimate costs, using mass production.
Well, the structure frame and nodes are really cheap – node costs you about one 5 liter plastic bottle, as well as frame structs.
So basically all you need is artificial light and water pumps transfer from bottom to top with reuse cycle.
Since in common cultivation the main asset is land surface, in mass production all the costs can be reduced to the economy on surface.
Also this approach allows us to grow indefinite amounts of plants on the limited surface just increasing floors amount.
That means we can get 10x output with 10 floors and roughly 100x output with 100 floors on the given amount of surface.
So the question is – why are we still using ineffective 2d cultivation instead of more productive 3d approach ?
Feel free to add some reasonable comments for this topic in our Biology StackExchange and Economics StackExchange discussions.
So in science fiction movies and books the future of mankind is commonly described as inefficient, dark and even apocalyptically deadly.
We believe it is mostly due to the attempts to attract attention of customers in order to increase sales and well known human love to tragedies, which is viewed as a common genre through basic education via religion in early stages of culture development.
Using these patterns, novelists describe tons of undesired events and some people start to think that it is really inevitable and may even lead to civilization self-destruction.
This is really funny, since most of this problems are really simple to solve.
To our point of view, the main difficulty with civilization is just maintaining a simple discipline and keeping it organized.
That is because lots of modern people didn’t went too far from stone age (that ended just 10k years ago) savages or even monkeys in their personal progress.
Here are some details on most common problems concerning the population growth and progress :
lack of food
lack of water
lack of mineral resources
problems with living space
diseases and mutations
great apocalyptic wars
ice ages climate problems
rise of the machines against humans
We will try to explain how it is easy to handle all these problems with just a reasonable approach.
Since most recent common cultural educational efforts were not very clear and effective, we decided to try our best at making it really reasonable.
Even it 21 century with internet and info available, there are lots of misunderstandings and misconcepts about even common ideas of progress.
That is due to the inability to find trusted sources of information in the ocean of info around us.
Well, we will try to sort that out and start our ReUse Inc Educational initiative.
Through the series of blogs and informational resources we will try to make even the most complex matters really simple and clear to everyone.