| The easiest way to understand how the truth-values | | | | have similarities. |
| can be measured from representations is to perceive | | | | Now, when returning to the example of the finding the |
| the technique that is used to match fingerprints. When | | | | correlating representation of the fingerprint from the |
| not talking about a criminal case, it can be considered | | | | database, if there is a program that is used to go |
| that as one gives his or her fingerprint by for example | | | | through the database, the method this program uses is |
| inking the fingertip and rolling it to a paper, leaving the | | | | that thirteen correlation points are inserted to it that are |
| copy of the geometrical shapes of his or her | | | | in correlation with the given representation, i.e. the ink |
| fingerprints to it. As this copy is then considered as a | | | | copy of the geometrical shapes in the fingertip, and it |
| representation of his or her fingerprint, and that the | | | | goes through the representations in the database until |
| geometrical shapes in it are considered as units of | | | | it finds the representation that has all the thirteen |
| information, and that this representation is to be found | | | | correlation points in it, which the operator of the |
| from a database that holds thousands of | | | | program can then use to compare with the amount of |
| representations of other fingerprints, in order to find the | | | | correlation points that his conscious capacity can |
| representation that matches with the given geometrical | | | | withhold. Therefore, if one is to measure truth-values |
| shapes in the fingerprint, one must use what can be | | | | from representations, one can use this method of |
| called as correlation points to find it. The correlation | | | | producing correlation points from the exact |
| points are units of information that are used to find | | | | representation and find correlation points from the |
| correlating units of information from another | | | | representation that is valuated. |
| representation(s). In other words, if for example it is | | | | This is important. As we are entities with |
| imagined that there is representation A that is made of | | | | consciousness and as our whole sense of reality is |
| seven units of information, in order to find the | | | | build of units of representations, in order to understand |
| representation B that is in correlation with the | | | | the phenomena in the environment as realistically as |
| representation A, all the seven correlation points must | | | | humanely possible, we must produce representations |
| exist in the representation B, and in the correct | | | | of the phenomena, i.e. virtual replicas in correlation with |
| sequence. If for example representation C has five | | | | the phenomena. If we for example predict behavior of |
| units of information that is in correlation with the | | | | a phenomenon, we produce patterned sequences that |
| representation A, but has two different units of | | | | can be used to predict the chain of causalities the |
| information and two additional units that are | | | | phenomenon follows. This is relatively easy when it |
| non-existent in the representation A, as the | | | | comes to such natural laws that are for example in |
| representation is a sum of its parts, the | | | | the behavioral models of a spherically shaped mass |
| representations are inevitably asymmetric, and are | | | | falling under the relative-constancy of the gravity in a |
| thus not in correlation with each other although they | | | | vacuum. |