A bio-diagnostic device that allows to track any condition in the body through changes in the wave characteristics of tissues, individual cells, chromosomes and even individual enzymes and hormones, based on Non-Linear Analysis Systems (NLS), which are the most advanced information technology, and can be considered the most remarkable and beneficial achievement of modern natural science.

The diagnostic equipment is based on a spectral analysis of the eddy magnetic field of each biological object.

The close relationship between vortex magnetic fields and

biological systems, with these fields being used as a means of complementary and intercellular interaction. Vortex magnetic fields play an important role in information transfer and interaction with various biological systems.

According to the quantum logic theory of entropy, the exchange of information in any system is carried out remotely and selectively due to quantum electromagnetic radiation.

The hardware-software system allows the creation of preset bioelectrical activity of brain neurons, through this activity it becomes possible to selectively amplify signals that are difficult to detect against the background of statistical fluctuations, and then isolate and decode the information contained in them.

In this way, the apparatus orients itself to the radiation exactly where it originates so that it can then decode and display it on the computer screen, where a virtual model of the organ is created in certain colours. Following the rules of quantum chromokinetics, we represent the entropy values of each system as the colors of a spectrum, and the hues will vary from light yellow (minimum entropy values), to orange, to red and purple, to nearly black (maximum entropy values).

More accurate calculations are made using the computer, which allows a number of stationary states corresponding to a certain entropy potential to be separated, then selectively interacted with the electromagnetic radiation spectrum.

Computer models also offer a three-dimensional projection of internal organs. The colored marks placed on the picture make it easier for the therapist to determine the location of the pathological process. It is possible to assess the process of decay of these biological structures and to make a prognosis by comparing the colour range of the signs and that of the computer model of the organ, using the dynamics of their change over a given period of time.

In order to determine the pathology in an area, it is necessary to examine the deeper levels of the organ produced on the screen by the computer until the pathological core is localized, thus enabling imaging, making it possible to prescribe the correct treatment/therapy.