UkrainianProfessional Education

Abstract

In part I, a new type of superregeneration was proposed - chaotic superregeneration. Part II shows, first of all, the perspective of chaotic superregeneration research from the point of view of monitoring the surrounding environment. A new scheme and a new model of the chaotic superregenerator, which is more stable during its fullscale implementation and simulation, have been determined. Explanations of the reasons for increasing such stability. It is shown that only a relatively small number of potentially suitable schemes of chaotic autogenerators should be used to implement chaotic superregenerators. The main methods of synthesis (construction) of chaotic superregenerators are presented. A system of ordinary differential equations is proposed, which describes the operation of the model under consideration, and all the data necessary for modeling are determined. All important simulation results are presented. A method has been developed that directly proves the existence of such a phenomenon as chaotic superregeneration. The existence of qualitatively different regimes during the implementation of chaotic superregeneration was determined, depending on the value of the parameter K (ratio of the frequency of "natural" oscillations and the frequency of quenching). Goal of the work. Study of a new phenomenon discovered by the authors - chaotic superregeneration. Study of qualitatively different modes of operation of a chaotic superregenerator. Development of a general methodology for the synthesis of chaotic superregenerators. Synthesis of a new stable scheme and a new model in its mathematical modeling. Development of a method of direct proof of the existence of the phenomenon of chaotic superregeneration

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