The paper shows the system of vertical movement stabilization of the geophysical rocket (GR) for the purpose of high-precision measurement. The stabilization system is one of the main systems comprising GR’s vehicle information and control system (VICS). The model uses kinematic relations reflecting continuous changes of yaw, pitch and roll angles expressed with dynamic and kinematic equations. The computer model of GR vertical movement stabilization was developed, verified and simulated by means of SimInTech dynamic modeling.
The methodology and software for assessing the service life of complex structures uses the methods of intellectual analysis to determine the technical state of the structure, taking into account the current state and the influence of external factors.Experimental studies, using the example of a chimney, confirmed the effectiveness of using the developed software for assessing the service life of a structure based on the results of changes in non-destructive testing data, geometric parameters, the influence of climatic and other factors. The methodology and software for assessing the service life of complex structures uses the methods of intellectual analysis to determine the technical state of the structure, taking into account the current state and the influence of external factors. In the course of the software operation, the probability of a preemergency state is analyzed and relationships are built with the results of predicting the service life of the structure.
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