This paper considers an algorithm for the synthesis of an optimal filter providing a state vector estimator for a discrete linear dynamic system with additive perturbations containing an unknown constant component. The algorithm does not use perturbation estimators. Results of a computation experiment are given.
Ontology-based information systems for supporting research and commercial activities are considered. The tool kit required for supporting document analysis by automatic extraction of information of significance to the user from document texts is substantiated. These tools should support the various stages of text analysis and include workbenchs for designing specialized dictionaries and knowledge bases. The proposed approach allows a semantic analysis of texts based on knowledge of the subject domain, document genre, and specific terminology used by experts in the subject.
V. A. Kulikov, A. V. Kulikov, M. A. Tikhonova, V. S. Kirichuk
Keywords: automation of the experiment, classification, maximum likelihood method, frame-to-frame difference, forced swimming
Pages: 46-51
Justification and experimental verification of the computer vision algorithm and the maximum likelihood method for automatic estimation of the time of animal immobility in the forced swimming test are given. The computer vision algorithm is based on studying the difference between the frames with the animal images. The immobility estimates obtained by the existing methods and on the basis of the proposed criterion are compared.
Signal processing in the COMPLEX automated measurement system designed for noncontact inspection of wheel pairs of freight trains is described. The chosen coordinate base and methods of signal filtration and reconstruction ensure high reliability of measurement results during commercial operation even under conditions of intense atmospheric interferences.
A distributed measuring system of the stress-strain state of a plate is developed and tested. Optical fiber is used as the recording element. It is fixed on the surface of the body being deformed so as to solve the problem with the minimum number of measurements. Theoretical calculations are confirmed by the results of full-scale experiments.
O. V. Belai, E. V. Podivilov, L. L. Frumin, D. A. Shapiro
Keywords: Helmholtz wave equation, inverse scattering problem, numerical method of solution
Pages: 69-77
A one-dimensional inverse scattering problem for the Helmholtz wave equation is considered. The problem consists in reconstruction of the refractive index of transparent inhomogeneous media from a specified complex reflection spectrum. A method previously proposed by the authors for reconstruction of the Bragg gratings in the coupled mode approximation is used. Numerical simulations of the inverse scattering problem for the classical Rayleigh layer and for an exponentially smooth transitional layer are performed. The solutions obtained demonstrate the high efficiency of the proposed approach. The accuracy of refractive index reconstruction turns out to be essentially dependent on the degree of layer smoothness. The proposed approach can be applied in problems of the development of coated and interference optics, in synthesis of the Bragg gratings and multilayer optical mirrors, and in radiophysics and acoustics.
This paper gives a brief review of some studies of acoustooptic methods for measuring sound velocity in solids performed at the Department of Acoustoelectronics and Acoustooptics of the Institute of Semiconductor Physics, Siberian Branch of the Russian Academy of Science.
Publications on theoretical and experimental studies of multiple-beam reflection interferometers with a "non-inverted" response function in reflection are reviewed. Their operation principles and optical properties are described. The analytical form of recording of the response functions of such interferometers and the method of choosing parameters for controlling the form of the response functions are considered. Results of calculations and experiments are presented.
Analytical formulas for calculating the reflection coefficient of a thin-film metal-dielectric structure at light incidence angles greater than the critical angle of total internal reflection were obtained using a conducting surface model for a thin absorbing layer. It is shown that an asymmetric interference pattern of the spectral dependence of the reflection coefficient has higher sensitivity to changes in the refractive index of the medium.
The present state of research in the area of low-power design methodologies and mechanisms of power dissipation in digital circuits are considered. The choice of the corresponding model of power estimation is demonstrated to exert a significant effect on quality, cost, and performance of designed digital circuits. An analysis of various power estimation techniques at different levels of abstraction for sequential and combinational circuit design is presented. Special attention is paid to power dissipation analysis of programmable logic devices.