47 research outputs found
Electromagnetic non-invasive glucometry: achievements and prospects
This work is devoted to the study of technologies for creating a method for non-invasive measurement of glucose in human blood. A brief overview is given on some of the existing technologies and developments in the field of the radio range for electromagnetic radiation and for recording small changes in the dielectric properties of biological environment. It also presents a new technology for non-contact measurement of blood glucose concentration in phantom blood using magnetic field sensors
Relief restoration of complicated form objects by monochromatic microwave radiation
Article demonstrates possibility of monochromatic radiation usage for relief restoration. There is a problem with restoration when scanned object is not flat and it is not parallel to the scanning plane. It was discovered that two-dimensional phase distribution could be applied for distance determination. It is reliable way to solve problems listed above. In conclusion offered methods allow monochromatic microwave radiation usage for screening system development
Radiotomographic system construction on the basis of multi-elemental reflective array
The authors propose a solution of the problem of radiovision using the reflective array, each element of which can change the reflection coefficient under the action of external control voltage. The focusing abilities of flat reflection array of monochromatic radiation were studied to solve the problem of radiovision. The array element based on waveguide with a controlled reflection coefficient was developed. The phase shift switching is 180Β°
Reflective array with controlled focusing for radiotomographic application
It's considered the principle possibility of creation the managed reflectors for formulation of given field distribution in the focus area. Reflectors change the reflect ratio in dependence of the external control. The proposed theoretical modeling of such controlled focused device which provides focuse to a specific point in a given distribution of the reflectors. On the basis of numerical simulation it's considered the application of this approach for the solution of the problem of radiotomography
Complex sequrity system for premises under conditions of large volume of passenger traffic
Subsystems of the design of a complex security system for premises under conditions of large volume of passenger traffic are considered. These subsystems provide video- and thermal imaging control, radio wave tomography, and gas analysis. Simultaneous application of all examined variants will essentially increase the probability of timely prevention of dangerous situations with the probability of false alarm as low as possible. It is important that finally, this will provide protection of population and will facilitate the work of intelligence services
Remote ultra-wideband tomography of nonlinear electronic components
The efficiency of using ultra-wideband (UWB) signals for nonlinear radar is investigated. In the case at hand, it is necessary to see, based on scattered field disturbances, whether nonlinear inclusions are present in the field of view. The solution suggested is to compare the shapes of UWB signals reflected from the probe area under two conditions: an additional generator irradiating the probe area by intense monochromatic radiation is switched on and off. If a nonlinear electronic component is present in the probe area, the reflected UWB signals differ in shape. Thus, the difference in the shapes of the signals indicates the presence of a component with a nonlinear characteristic
Spatial focus for UWB signals
Method of focus in the time domain and its analogue, a method of radiowave tomosynthesis in the frequency domain by the criterion of level artifacts in the reconstructed radio images of the test object are compared. To verify the advantages of focus in the time domain method numerical model of clocked nonequidistant flat antenna array has been developed at the Department of Radio Physics at Tomsk State University
A comprehensive study of underground animals habitat
This paper describes a method of studying the natural habitats of underground animals by the example of zokor. The purpose of the research is to find habitation of animals using unmanned aircraft and investigate networks of tunnels and burrows with ground penetrating radar "OKO-2". Geolocation data were processed by techniques developed by the authors