To achieve significant progress in the quality of NLS pictures, considerable increase in amount and accuracy of contained information is required. It is the increase in amount and accuracy of diagnostic information in NLS picture that is the main objective of modern technologies’ development. Nowadays, new approaches to acquiring and analysis of information can be divided into those related to visualization in three-dimension mode and those related to increasing of devices’ generation frequency, which is directly associated with increasing of resolution during research of organism tissues’ ultrafine structures.
In identification of bioresonance nls
’ operating characteristics, high-frequency generators have the principal meaning. The major part of the most significant achievements in picture quality improvement and in growing of our clinical possibilities is related to innovations in development of non-linear generators. Working frequency ranges of modern generators are within 1.4–4.9 GHz, which allows us to examine almost all internal organs, anatomical masses and tissues with up to 30 micron resolution. However, non-invasive visualization of ultrafine structure of tissue at separate cell organelles and DNA fragments may be hampered. That is why technology of high-frequency non-linear generators manufacturing have vastly changed.
The Institute of Practical Psychophysics, together with International Academy of Nonlinear diagnostic systems, created analogue-free research equipment allowing to monitor the condition of biological object by changes in physical fields generated by organism’s tissues.
The main problem of physical fields’ influence to a cell ultra-structure and DNA helix is to find an extremely precise instrument which, similar to laser, could influence the DNA molecule structure with the diameter less than 2 nanometers. Creation of such unique instrument became possible only after super-high-frequency non-linear generators were developed. These generators have the frequency of few dozens of gigahertz and additional feature of wide-pulse signal modulation to generate field oscillations with parameters peculiar to living cell in order to restore its regulatory mechanisms.