COGNOSCIBLE TECHNOLOGIES We Show What Is Possible
Nov 2017
Research Methodology The Cognoscible Technologies´ methodology of work is very specific and different from the one used by traditional science. It derives from the union of multiple disciplines in the cognitive sciences and from methodologies that allow using both brain hemispheres, optimizing therefore the way to make science. Thus, by fusing Neurosciences, Epistemology, Biology of Cognition, Developmental Behavior Modelling (DBM), Neurolinguistic Programming (NLP) and Tibetan Buddhist Meditation (Dzogchen), we were able to create a method that allows us to know in advance what we are going to obtain, how long / much time it requires and what resources we will need. We can also find alternative results - if there are still better ones left to be discovered) -, and all this, even before beginning actual investigation. Our methodology is also characterized to produce and to allow the following benefits: determining whether developing or discovering a new product or invention is possible. knowing what we are going to obtain in multiple lines of investigation before beginning to investigate. evaluating all those results and determining which (of them) will be the most profitable or which will be the ones that will have the greatest strategic importance for the company. defining how long it will take and what kind of resources and materials we will need to obtain it. once the investigation has begun, specifying what we search for and where it must be explored for in order to reach the desired result. testing the obtained results and allowing alternative lines of investigation. Thanks to this, we know the state-of-the-art in nanotechnology. This knowledge shows how all the known physical and chemical laws are replaced by the size factor and how the equations must be rewritten to describe correctly the factors involved in nanoscale. Also, this method allows us to start the development of the next generation: picotechnology: 1000 times smaller than nanotech.
DIFFERENCE BETWEEN A   TRADITIONAL SCIENTI FIC RESEARCH AND A D EVELOPMENT BY  COGNOSCIBLE   TECHNOLOGIES   TRADITIONAL SCIENTIF IC RESEARCH   DEVELOPMENTS BY COGN OSCIBLE  TECHNOLOGIES   EXPLORATORY: THE INV ESTIGATION  IS CARRIED OUT TO SE E WHAT  THERE IS OR HOW IT W ORKS.   DEVELOPMENTAL:   THE D EVELOPMENT IS  MADE TO OBTAIN THE W ISHED RESULT  OR PROPERTY.   UNCERTAIN: CAN REACH   OR NOT  PRACTICAL RESULTS   CONCRETE:   RESULTS AR E KNOWN IN  ADVANCE   UNDETERMINED TIME:   T HE  INVESTIGATION USUALL Y TAKES  YEARS AND CANNOT GUA RANTEE  PRACTICAL RESULTS.   SPECIFIC TIME OF DEV ELOPMENT:   WE  KNOW HOW LONG IT WIL L TAKE TIME IS  CONTR OLLED IN ORDER TO GU ARANTEE  RESOLUTION IN THE SH ORT TERM   GENERAL:   ALL SUBJECT S IN ALL  AREAS ARE INVESTIGAT ED   SELECTED:   DEVELOPMEN TS ARE  SELECTED ONLY BY THE   HIGH LEVEL OF  INVESTMENT RETURN AN D HIGH  HUMANITARIAN OR ENVI RONMENTAL  BENEFIT.   SLOW:   THERE IS A  LONG PROTOCOL  TO FOLLOW: INTRODUCT ION,  DEVELOPMENT, EXPOSIT ION, ETC.   FAST:   A MORE EFFICIE NT PROTOCOL  GIVES US RESULTS IN  A VERY SHORT  TIME. (GAIA 40 DAYS  / PANGEA 25 DAYS)
COGNOSCIBLE TECHNOLOGIES We show what’s possible
November 2017
Research Methodology The Cognoscible Technologies´ methodology of work is very specific and different from that used by traditional science. It derives from the union of multiple disciplines in the cognitive sciences and from methodologies that allow to use both brain hemispheres, optimizing therefore the way to make science. Thus, by fusing Neurosciences, Epistemology, Biology of Cognition, Developmental Behavior Modelling (DBM), Neurolinguistic Programming (NLP) and Tibetan Buddhist Meditation (Dzogchen), we were able to create a method that allows us to know in advance what we are going to obtain, how long / much time it will take (us) and what resources we will need; we can also find alternative results - if there are still better ones left to be discovered) -, and all this, even before beginning the investigation. Our methodology is also characterized to produce and to allow the following benefits: determining whether developing or discovering a new product or invention is possible. knowing what we are going to obtain in multiple lines of investigation before beginning to investigate. evaluating all those results and determining which (of them) will be the most profitable or which will be the ones that will have the greatest strategic importance for the company. defining how long it will take and what kind of resources and materials we will need to obtain it. once the investigation has begun, specifying what must be looked for and where it must be looked for in order to reach the desired result. testing the obtained results and allowing alternative lines of investigation. Thanks to this, we know the state-of-the-art in nanotechnology. This knowledge shows how all the known physical and chemical laws are replaced by the size factor and how the equations must be rewritten to describe correctly the factors involved in nanoscale. Also, this method allows us to start the development of the next generation: picotechnology: 1000 times smaller than nanotech.
DIFFERENCE BETWEEN A   TRADITIONAL SCIENTI FIC RESEARCH AND A D EVELOPMENT BY  COGNOSCIBLE   TECHNOLOGIES   TRADITIONAL SCIENTIF IC RESEARCH   DEVELOPMENTS BY COGN OSCIBLE  TECHNOLOGIES   EXPLORATORY: THE INV ESTIGATION  IS CARRIED OUT TO SE E WHAT  THERE IS OR HOW IT W ORKS.   DEVELOPMENTAL:   THE D EVELOPMENT IS  MADE TO OBTAIN THE W ISHED RESULT  OR PROPERTY.   UNCERTAIN: CAN REACH   OR NOT  PRACTICAL RESULTS   CONCRETE:   RESULTS AR E KNOWN IN  ADVANCE   UNDETERMINED TIME:   T HE  INVESTIGATION USUALL Y TAKES  YEARS AND CANNOT GUA RANTEE  PRACTICAL RESULTS.   SPECIFIC TIME OF DEV ELOPMENT:   WE  KNOW HOW LONG IT WIL L TAKE TIME IS  CONTR OLLED IN ORDER TO GU ARANTEE  RESOLUTION IN THE SH ORT TERM   GENERAL:   ALL SUBJECT S IN ALL  AREAS ARE INVESTIGAT ED   SELECTED:   DEVELOPMEN TS ARE  SELECTED ONLY BY THE   HIGH LEVEL OF  INVESTMENT RETURN AN D HIGH  HUMANITARIAN OR ENVI RONMENTAL  BENEFIT.   SLOW:   THERE IS A  LONG PROTOCOL  TO FOLLOW: INTRODUCT ION,  DEVELOPMENT, EXPOSIT ION, ETC.   FAST:   A MORE EFFICIE NT PROTOCOL  GIVES US RESULTS IN  A VERY SHORT  TIME. (GAIA 40 DAYS  / PANGEA 25 DAYS)