The Intruder software, released in the first quarter of 2018, combines aspects of previous models for practitioners not requiring the additional features such as the Emotional state and modalities of Traditional Eastern Medicine. The software has an extensive etalon database of bacteria, fungus and viruses, whilst maintaining the extensive etalon database, depth of graphics, 12 point Fleinders scale and areas of hot and cold processes.

The main aspect of this software is to obtain a micro-organism resistance evaluation in a timely and accurate manner, using a non invasive NLS technique, as well as diagnostics of infections and invasions.

“Intruder” software is the latest specialized development of the Institute of Practical Psychophysics in an area of micro-organisms and helminths activity analysis and evaluation of their resistance to modern antimicrobial and anti-parasitic preparations.
The importance of this development is dictated by the appearance of pan-resistant super bacteria during recent years, which are resistant to all used antibiotics, that is why NLS-method and computer express-evaluation of activity and resistance of a large number of pathogenic micro-organisms against all existing antibacterial (anti-parasitic) preparations simultaneously, may become the only possible alternative to  modern medicine.
The appearance of an increasing number of new antibiotics and progressive multiplication of strains with acquired resistance forces, has brought about a need for new modern computer methods for evaluation of micro-organisms’ resistance.
The computer NLS-analysis method for evaluation of activity and resistance of micro-organisms against antibacterial preparations, developed by the Institute of Practical Psychophysics, comply with all modern requirements.
The most fundamental changes in a methodology of antibiotic-resistance evaluation by computer NLS-analysis method are related to the creation of:

– a concept of interpretative consideration of antibiotic-sensitivity evaluation results, based on a non-linear modeling of a studied micro-organism with following correction of data, acquired at spectral testing, and issuing of a clinically oriented recommendations on therapy;

– a concept of virtual etalons of group preparations, that allows to significantly shorten the time frame and volume of studies in search for reliable results;

– a mathematical model of a verification system of antibiotic-sensitivity evaluation accuracy, that allows to greatly decrease a possibility of erroneous results;

– a spectral-wave method of micro-organisms’ activity and antibiotic-sensitivity evaluation, that allows to evaluate a level of an external entropy in molecules of albuminous compounds of a micro-organism’s separate tissues, and in bases of ribonucleic and desoxynucleic acids under the influence of antibacterial preparations.

Nowadays, without consideration of above mentioned aspects, it is impossible to get well timed and reliable results of micro-organisms’ activity and antibiotic-sensitivity evaluation, and therefore to apply modern antibacterial (anti-parasitic) remedies properly.

In addition, this technology regards a human organism and its bacterial (parasitic) agents, as a unitary system of biotic relations and identifies many functional changes in a human organism, caused by micro-organisms, as a predisposition for development of not only infectious, but psychosomatic illnesses as well. Basing on this, the technology makes possible to determine a study program clearly, without unnecessary consultations, thus shortening time of an examination, which is important for correct and well-timed diagnosing and corresponding treatment.