Heinen A.

Problem: Communication between environment and human organism depends on the exchange of information in the interaction of fluctuating and oscillating systems. Fluctuation of a system is controlled by permanent changing stimuli and their oscillation. A fully functional live system is regulated by rhythms generated out of the communication of quasi-periodically repeated fluctuation and oscillation values, as for example concentration of hormones, temperature of skin, loudness/intensitiy, heartfrequency. Each oscillator generates fluctuancy and analogue oscillation and is influenced itself by oscillation of fluctuant systems of the network. They are connected via negative/ positive feedback mechanism.The quasi-periodically variations cause rhythms with “longitudinal wave” character, which work like “moving and structuring waves”. In passive state biological and natural rhythms oscillate in their indiviual spontaneous or “rest rhythm”. From this position the organism is able to accomodate environmental stimuli (natural / technical rhythms) in an optimal way. Exceeding stimuli or accumulation of stimuli cause rhythmic disturbances throughout the system and may even generate general “insufficiency of accomodation”. The organism reacts with emotions, starts with physio-psychological-pathogenetic mechanisms, and means the beginning of a 7 – 10 year lasting structural pathogenitic development with “chronic deseases” at the end. Solution: Special Time-Series-Analysis, like ESS (EmotionStressScreening), demonstrates the biological rhythm system in its actual oscillation on the basis of voiceanalysis. Rest rhythms as well as stress rhythms are detected. Stress rhythms must regain “rest rhythm state” again. A special method “RFM” (RhythmFrequencyModulation) modulates frequencies into rest rhythms. They are applicated to organism for retrainment via sound and vibration with special vibrasound equipment. Results: - 50 probands with disturbances in their individual BRS - regulation of their capability of accomodation – their analysis via voice and retrainment via sound and vibration. - schematic diagram of the model