A Novel Approach for Missing Combat Support Aircraft Search Acceleration using VTOL UAS

In this paper, an approach to accelerate search operations for a missing combat support aircraft using a portable waterproof autonomous vertical takeoff and landing unmanned aerial system called “flying locator beacon” is described. The latter is connected with both flight data and cockpit voice recorders with a parallel bus and may be deployed from the empennage during extreme emergency scenarios, which is detected when few flight parameters are overrun leading to an air crash stimulating behavior. Landing of the flying locator beacon strictly takes place on global latitude and longitude coordinates only of integer values enabling significant minimization of search time and cost

Obtaining physiological parameters of biological objects from video stream methods analysis

The paper presents the analysis of existing methods for the noncontact measurement of the pulse of the person from the video stream received from the RGB camera. The proposed methods improve the accuracy of their work and decrease the negative impact of human movement on measurement results

Obtaining physiological parameters of biological objects from video stream methods analysis

The paper presents the analysis of existing methods for the noncontact measurement of the pulse of the person from the video stream received from the RGB camera. The proposed methods improve the accuracy of their work and decrease the negative impact of human movement on measurement results

Regions of interest selection in the tasks of contactless human pulse measurement by analyzing the RGB video stream

This paper is devoted to improving the accuracy of human pulse measurement by RGB video stream analysis. For this purpose, a study was conducted the influence of the size, location and stability of the region of interest on contactless human pulse measurement results

Simulation model for the study of possible consequences in the occurrence of a fire in various types of buildings

This paper, describes a developed simulation model that gives the ability to simulate various situations of possible fire occurrence and study the behavior of people during their evacuation, taking into account various factors in different types of buildings, which allows the prediction of the consequences of a fire and subsequently develop rules for human behavior in extreme situations. Studies have shown that the optimization of movement during the simulation of a fire made it possible to reduce the likelihood of fire by approximately 20%, and the presence of an emergency exit reduces it by another 30%, which makes it possible to optimize the results of modeling the consequences of a fire in rooms of various types