Dado un conjunto N tendente a infinito es inevitable que absolutamente todo suceda, siempre que se disponga de tiempo suficiente o infinito , y he ahí donde está el verdadero problema irresoluble o quid de la cuestión de la existencia ¿quién nos garantiza que dispongamos del tiempo necesario para que ocurra lo que debe o deseamos que suceda?


jueves, 15 de febrero de 2018

The data base in the Specific Artificial Intelligence for Artificial Research By Deduction


The data base in any Specific Artificial Intelligence for Artificial Research By Deduction, must be always a matrix, whose Application, as first stage in this Specific Artificial Intelligence, consist only of all the necessaries factors for the research in any specific synthetic science, specific synthetic academic field, or within an specific interdisciplinary or multidisciplinary study treated as a specific synthetic academic field.

Once the first stage of Application is finished, in the second stage, the replication stage, the matrix will be filled with the flow of measurements obtained by robotic devices. But this second stage is only after the total completion of this first stage: the construction of the data base as a matrix.

On this post I will develop some examples for the construction of specific matrix for Specific Artificial Intelligence for Artificial Research by Deduction, taking as examples possible researches using this technology in tectonics, climatology, transport, and gravity.

In the formation of this data base something really important, in the core of Impossible Probability, the consideration of at least two kind of information from the synthetic world by measurement instruments: direct punctuations and frequencies.

Depending on the nature of the information, direct punctuations or frequency, the way in which in the second stage of replication the information is going to be treated is different, except by the use of the Second Method of Impossible Probability where all information is transformed in empirical probabilities.

However, the Second Method of Impossible Probability should be treated only as what it is, a Second Method after the first one: the traditional statistic and the traditional probability. What it is really important, regardless of what kind of methodology is used in the second stage of replication, is to understand the real meaning of the data base as a matrix in the first stage of application in any Specific Artificial Intelligence for Artificial Research by Deduction.

Some specific matrix for some specific synthetic sciences or synthetic academic fields, are going to be integrated by data bases whose factors are going to be measured only in direct punctuations, other data bases by only frequencies, but other data bases are going to integrate in the same data base factors whose measurement is made by direct punctuations and others by frequencies.

The ideal in Impossible Probability working on Artificial Intelligence, is the possibility of the construction of data bases where, regardless what kind of information is gathered, direct punctuations or/and frequencies, all information must be integrated in the same data base, and should be treated using the same statistic and probabilistic methods.

Starting with some examples for the elaboration of a specific matrix for a Specific Artificial Intelligence for Artificial Research by Deduction, the first example to developed will be applied in tectonics.

If we have to develop a specific matrix only for tectonics, something to consider is the fact that some of the tectonic factors that later are going to be measured by robotic devices, are going to be measured as direct punctuations while others as frequencies.

For instance, if we want to measure the geological temperature at different locations in the terrestrial geological structure, temperature is a kind of information measured as a direct punctuation.

The way in which is possible to work with flows of direct punctuations of temperature around the world is the following, every single thermometer considered as a factor for the measurement, will be defined in quantitative terms indicating exact location in terms of latitude, longitude, and depth. So if we have thousands of thousands of thermometers at different depth in different locations, we will have a temperature map of the planet directly from thermometers located in these positions. At the same time, via artificial satellite is possible to have another possible map of terrestrial temperature, indicating the temperature estimated for every single point defined in terms of latitude, longitude, or even depth.

In the same way than every thermometer, or every point of temperature by artificial satellite is a single factor to include in this specific matrix, which are going to give a flow of direct punctuation of temperature for each location as a factor in this specific matrix, another one is the measurement of any quake or any phenomenon in which any surface suffers a trembling in any part of the world, even the most menial, taking as direct punctuations their intensity.

But at the same time, using taxonomies of possible tectonic phenomenon such as earthquakes, tsunamis, and volcanos, as well as any other, differentiating categories of each kind of possible phenomenon depending on their intensity or any other quantitative difference, in the same matrix is possible to have an updated measurement of the frequency in which each one happens, measuring their frequency across the world and their frequency in every single point of the world.

Nowadays there are many agencies specialised in this kind of investigation with very powerful measurement instruments, one of them for instance is the United States Geological Survey.

In fact the work for the construction of a data base with the shape of a matrix for Specific Artificial intelligence for Artificial Research by Deduction in tectonics is not very difficult with the current organizations working in this synthetic science. I have mentioned the United States Geological Survey because maybe is one of the most famous organizations in this field across the world, but in Europe, Russia, and China, there are similar organizations, with their own instruments of measurements and their own data bases.

Having as data bases the ones that this organizations can provide, the only thing that a team in Artificial Intelligence must do for the construction of an Specific Artificial Intelligence for Artificial Research by Deduction in tectonics is only to have a look their data bases, to check how they are organised, try to integrate absolutely all of them if possible, or at least as many as possible, in only one, and practically the first stage on the construction of an Specific Artificial Intelligence for Artificial Research by Deduction in Tectonics is finished.

In the same data base must be integrated absolutely every kind of information, in direct punctuations, such as geological temperature or intensity of quakes, and every kind of information in frequencies, such as the frequency in which any kind of geological phenomenon happens: earthquakes, tsunamis, volcanos, differentiating for each one different categories according to their intensity, having the frequency of each of them in each possible location where the measurements are made.

All data bases, of direct punctuations and frequencies, integrated in only one, allow the formation of empirical hypothesis, taking as possible stochastic relations any possible relation between any factor in the same data base, possible stochastic relation that after rational contrastation, if it is rational, will be object of single and comprehensive modelling.

In the same way that an specific matrix for an Specific Artificial Intelligence for Artificial Research by Deduction in tectonics is easy to do, given the current data bases of tectonics across the world thanks to the incredible work made by scientists in different organizations at national or international level, can be made any other specific matrix, for any other purpose, taking the current data bases from any other national or international agency, as good resource to start the creation of any other Specific Artificial Intelligence for Artificial Research by Deduction, in any other synthetic science or synthetic academic field, such as oceanography, population, economy, education (for instance the global data bases in economy or education elaborated by the Organisation for the Economic, Co-operation, Development), human rights (for instance data bases from this matter elaborated by United Nations),  climatology, and many more.

The application, by Artificial Intelligence teams, with the assistance of, in a future much closer than we think, Specific Artificial Intelligences for Artificial Engineering, such as the Artificial Designer of Intelligence and the Intelligence Mechanic Robotic, are going to be the first experiments about how to apply the Artificial Research by Deduction in different specific synthetic sciences or synthetic academic fields, that after successful results, once the first gigantic global data base will be ready, these previous experiments will facilitate the transformation of this first gigantic data base in a global matrix.

The construction of the Specific Artificial Intelligences for Artificial Research, by Application or Deduction, and the application of Artificial Research by Deduction in a Global Artificial Intelligence, will facilitate and accelerate the process of automation of the scientific research.

At the same time, the first models of collaboration between Artificial Research by Application and Deduction are going to appear, as long as the completion of integration process of Specific Artificial Intelligences for Artificial Research by Application in a unified data base, which is quite possible, will end up finally being integrated in the global matrix.

The next example of specific matrix that I will develop is about climatology.  In the construction of a specific matrix in climatology, for an Specific Artificial Intelligence for Artificial Research by Deduction in climatology, the same process, in absolutely only one data base the inclusion of absolutely everything related to climatology, independently if the information is gathered as direct punctuations or frequencies.

For instance, the definition of every thermometer as a factor of measurement, across the world, in quantitative terms of: latitude, longitude, and altitude. The definition of any point as a factor of measurement of the speed of the wind in terms of: latitude, longitude and altitude. The definition of any point as a factor of measurement in terms of: latitude, longitude, altitude; where is going to be measured how many litres per square is raining or snowing, or any other kind of precipitation.

The definition of any single point of the planet as a factor of measurement where is going to be measured any climatologic phenomenon: breeze, will, blizzard, drizzling, rain, hail, snow, storm, cyclone, tornado, hurricane, or any other, even the consideration as climatologic phenomenon the possible effects of solar storms in the terrestrial climatology, or even the consideration as a climatologic phenomenon the entrance of any meteorite in our atmosphere, every single phenomenon that happens in the atmosphere should be considered as possible climatologic phenomenon. Defining every single point where these measurements are going to be taken in quantitative terms of: latitude, longitude, and altitude.including in the same data base the measurements by direct punctuation or frequency.

In the same data base direct punctuations of temperature, speed of the wind, precipitation, among many others, for sure, and the frequencies of breeze, will, blizzard, drizzling, rain, hail, snow, storm, cyclone, tornado, hurricane, or any other, and differentiating categories of each kind of possible phenomenon depending on their intensity or any other quantitative difference, where is going to be measured, in the second state, their frequency across the world and their frequency in every single point of the world.

This specific data base for climatology, follows the same structure than the specific data base for tectonics.

 In absolutely only one data base, the inclusion of absolutely all the information of an specific synthetic science, regardless of this information is measured in direct punctuations or frequencies, and having absolutely all the information in only one data base, in the second stage of replication, the Specific Artificial Intelligence for Artificial Research by Deduction should be able to carry on empirical hypothesis, that after rational contrastation if accepted must be object of single and comprehensive models.

Every stage and step in all this long process, should be entirely automatized, the Specific Artificial Intelligence itself should be able to do this job by itself, without human intervention.

Nowadays there are lots of organizations working in climatologic studies from national level to international level, one the most important of them is the Intergovernmental Panel on Climate change, and across the entire world there are thousands and thousands of centres, laboratories, universities and institutions doing all kind of climatic measurements,

An Artificial Intelligence team having access to these data bases, and integrating in only one data base all possible information, regardless of the information is direct punctuations or frequencies, can create an specific matrix of climatology, that inserted in an Specific Artificial Intelligence for Artificial Research by Deduction in climatology, automatizes all the scientific research process in this area, doing by itself all the necessary scientific work.

The main benefit that these excellent designs of Artificial Research, by Application and Deduction is going to give to the entire humanity, is the possibility of the production of a cheaper and faster science, that will accelerate the scientific progress. And finally, these first models in Specific Artificial Intelligence for Artificial Research, by Application or Deduction, applied to absolutely all data bases, are going to do really easy the creation of a Global Artificial Intelligence, and within it, a global matrix, working 24 hours a day, 7 days a week, in the production of scientific knowledge, that will make easy the complete automatization of any other activity, especially the automation of the economy. Actually this is the early beginning of something much bigger, the creation of a science and technology beyond the human understanding.

Continuing with the range of examples that I had planned for the explanation of how to make specific matrix for Specific Artificial Intelligence by Deduction, the next example is about transport.

This topic is not itself a synthetic science, much more than this would be a kind of interdisciplinary or multidisciplinary study treated as a synthetic academic field. Due to this is not a synthetic science the possible factors to choose depend on what is the specific goal that the Artificial Intelligence team pretend to achieve through the creation of this Specific Artificial Intelligence for Artificial Research by Deduction in transport.

In the example that I will develop the construction of this matrix is designed to know how many kind of fuels are used, how much fuel is used for each one, for how many travellers, for how many hours, in total or person.

This specific matrix integrates factors measured in direct punctuations and factors measured in frequency, and the possible factors are: 1) every single kind of transport, motorcycles, cars, taxis, buses, lorries, trains, airplane, boats, ships, differentiating every category, for instance one category for every kind of car, or even every brand or car maker, 2) what kind of fuel use every single category,  and specifically for each continent, country, province, city, town, and small village, international companies, national branches of international companies, national companies, small business ,or for particulars, families, or every particular person  2) how many of them are in total around the globe, and specifically for each continent, country, province, city, town, and small village, international companies, national branches of international companies, national companies, small business ,or for particulars, families, or every particular person  3) the consume of every kind of fuel, differentiating among continents, countries, provinces, and if possible even cities, towns, and small villages, international companies, national branches of international companies, national companies, small business, or for particulars, families, or every particular person  4) the frequency in which this transport are used around the globe, and each continent, country, province, city, town, and small village, international companies, national branches of international companies, national companies, small business, or for particulars, families, or every particular person , 5) the hours in which they are used around the globe, and each continent, country, province, city, town, and small village, international companies, national branches of international companies, national companies, small business, or for particulars, families, or every particular person, 6) the purposes in which they are use, differentiating categories for every kind of job, laboral sector, leisure, as well as any possible other, around the globe, and each continent, country, province, city, town, and small village, international companies, national branches of international companies, national companies, small business, or for particulars, families, or every particular person  .

Data base no very different as the last one that I am proposing here, there must be elaborated for instance in the department research of companies of fuel and car makers, ship makers, the only thing to do for the elaboration of a specific matrix in this area, is to collect all the data bases, independently if the factors are measured by direct punctuations or frequencies, in order that in the second stage of replication, the Artificial Intelligence, after the identification of possible stochastic relations, if accepted as rational, makes single and comprehensive models.

Finally the last example that I would like to bring up, is regarding gravity, an Specific Artificial Intelligence for Artificial Research by Deduction in gravity, whose data base is an specific matrix where all the factors are only locations described in quantitative terms of latitude, longitude, depth or altitude, so later on in the second stage by robotic devices to fill in the matrix the measurements obtained about the intensity of gravity in each point. The main purpose of this Specific Artificial Intelligence would be the identification of any possible anomaly in the flow of gravity upon the Earth.

But much further than this, having such a kind of Specific Artificial Intelligence, the possibility that across the universe, by spaceships, artificial satellites, and telescopes as well as robots in other planets such as Mars, all of them giving permanently a flow of data to this Specific Artificial Intelligence, and defining in quantitative terms any point of the universe from the information comes, the possibility to study any possible anomaly in the gravity of any galaxy, star, black hole, red dwarf, planet, satellite, asteroid, comet, meteorite across the entire universe.

Data bases like this ones are currently available in national space agencies such as NASA, EAS, ROSCOMOS, CNSA, among others, the only thing that an Artificial Intelligence team has to do is to integrate all data bases about gravity from the Earth, and across the universe, depending on the projects that the space agency where they are working, integrating all the data bases in only one, defining every point of the Earth or the entire universe to study in quantitative terms.

The formation of any specific matrix for any specific synthetic science or any synthetic academic field for any Specific Artificial Intelligence for Artificial Research by Deduction, is always the same process: the definition of any factor to study in quantitative terms, nothing else. After the final completion of this first stage, when the specific matrix is ready, then the second stage of replication, when by robotic devices all the measurements are taken filling with the measurements the flow of data, permanently, the Artificial Intelligence must work permanently without time off, 24 hours a day, 7 days a week, identifying possible stochastic relations that after rational contrast if rational, are going to form part of a single virtual model and a comprehensive virtual model.

The way in which this artificial intelligence is going to experiment cyclic auto-replications, the third stage of any Artificial Intelligence, among other auto-improvements and auto-enhancemens, is though the auto-improvements in the comprehensive virtual model at any time that is made any single virtual model

After the elaboration of any single virtual model, if the empirical hypothesis has been accepted as rational, the single virtual model of a rational stochastic relation must be included in the comprehensive virtual model of this Artificial Intelligence, where finally the Artificial Intelligence integrates all single virtual models in only one comprehensive virtual model.

So at any time that a possible stochastic relation, as empirical hypothesis, is accepted as rational, creating a single virtual model, the Artificial Intelligence is going to auto-improve its comprehensive virtual model of that specific reality for what it has been designed, integrating the new single virtual model within the comprehensive virtual model of that specific reality for what it has been designed.

The most important in the development of Specific Artificial Intelligence for Artificial Research by Deduction in any synthetic science or synthetic academic field, is the fact that in reality they are the first experiments about how this technology can work, and be improved and enhanced in future models, being the objective the construction of a global matrix, for a Global Artificial Intelligence, able to carry on studies at global level, not only in one specific synthetic science or only one specific synthetic academic field, the Global Artificial Intelligence using Artificial Research by Deduction, after the completion of the global matrix, must be able to carry on all kind of studies, identifying all possible stochastic relations, around the globe or beyond, the entire universe, carrying on all kind of rational contrast, in order that, with absolutely all the rational hypothesis, the construction of a global virtual model.



 Rubén García Pedraza, London 15th of February of 2018