Vol 22, No 2 (2019)

The interrogation scheme for fiber optic sensor based on Brillouin scattering is represented. The application of stimulated Brillouin scattering signal formed in etalon optical fiber as reference source realized is proposed. The results of experimental investigations of stimulated Brillouin scattering characteristics depends on pump power and optical fiber parameters are represented.

In this paper we consider the antenna based on the magnetic gyromagnetic resonator with different types of bulk resonators. The magnetized gyromagnetic resonator is excited through the feeder line by the microwave field and then, in turn, excites the volumetric resonator or the reactor antenna, which radiate an electromagnetic field of rotating polarization into space. Such emitters have a number of unique properties that are provided by the magnetic gyromagnetic resonator: radiation of the circular polarization field; electrical switching of the direction of rotation, high frequency selection and magnetic tuning of the central frequency of radiation. Changing the direction of rotation of the field vector occurs by switching the current in the electromagnet. The shift of the central frequency of radiation can be made by changing the current in the field coil with a wire. In the axial direction, the ellipticity coefficient of the radiation field is close to one. Five types of volumetric resonators and a horn radiator are experimentally investigated. The characteristics of the radiation of the investigated resonators are compared.

In the work on the basis of the obtained integral relations, including the integral equations, taking into account the influence of nonlinear magnetic screens on the inductance of multilayer coils depending on the current strength, we study the frequency and nonlinear properties of the inductances of radio reactors of electric transport for interference suppression. Also we study their behavior in the circuit under nonstationary effects.

The contradiction existing in modern practice of information and telemetric support of launching space rockets has been formulated. A methodical device is proposed, which allows defining a rational program for gathering information while ensuring launches and thereby establishing the correspondence of telemetric information needs to data transfer capabilities. Practical calculations were carried out to determine a rational program for collecting telemetric information during the first session of information and telemetric support for launches of Proton-M launch vehicles from the Baikonur cosmodrome. Mathematical descriptions of the dependencies of the variable parameters on the state parameters of the information-telemetric support system are obtained. Experimental studies and evaluation of the results of calculations to determine the telemetry information collection program were carried out, which showed the efficiency of the developed methodological apparatus and confirmed the advantages of the program approach to the formation of adaptive information collection procedures while ensuring the launch of space rockets.

In this article the task offset and rotate measurement for video signal superposition was described. The developed algorithm is generalization of Lucas–Kanade model. Another name of this model is optical flow algorithm. The original algorithm allows to rate offsets parameters, but developed algorithm also allows to rate rotate angle. The concept of superposition has based on Taylor series of signal and sinus and cosines replacement on approximate function.

The method of designing radio engineering systems and measuring instruments, which are not affected by disturbing influences, is presented. The method is developed on the base of dual channel principle, formulated by academician Petrov B.N. The technique of practical realization of this method is considered. The advantage of the method is that it allows compensating disturbing influences, nature of which is not known in advance. The efficiency of the method and its implementation technique are illustrated by dual channel measuring bridge circuit. The importance of correct metrological analysis, which confirms efficiency of the method, is shown.