SUBSTITUTION METHODS HAVE TO INCREASE THE ACCURACY OF DECISION IN THE DIAGNOSTIC SYSTEMS OF COMPLEX OBJECTS

Abstract

Models of complex objects (both medical and technical) can be considered as multipolar studied circles.
In this case, in the technical objects, the poles are conductors of printed circuit boards between which the investigated components are located, parameters of which are measured. And in medical facilities, the poles correspond to the so-called meridians, each of which is characterized by representative biological points of acupuncture. The investigated here are the parameters between the points of acupuncture, which are used to measure the methods of Volle and Nakatani. However, these methods do not take into account the objectively existing interconnections of components in the objects being studied.

Recently, the methods of measurements with artificial dismemberment of closed circles have been widely developed. These methods consist of reconfiguring complex objects, using a certain switch, in the circle of a triangle type, in which one of its branches is an explored component that is shunted by two other components that are formed during the decomposition of the objects of diagnosis (OD) by means of The connection with the united poles of the studied component into one node. At the second stage, it is precisely measuring the parameters of the investigated component by comparing with some parameters of some exemplary element by some balancing device.

In the article also, substitution methods have been developed to increase the accuracy of decision making during measurements in the diagnostic systems of the parameters of the elementary components of complex objects.