IMPROVEMENT OF METHODS FOR DIAGNOSTICS OF WEAPONS AND MILITARY EQUIPMENT SAMPLES IN THE MILITARY LOGISTICS SYSTEM

During operation, malfunctions or extreme wear occur in the interfaces of structural elements of technical weapons systems and military equipment, and therefore they must be sent for repair, since simple methods of replacement or adjustment are often impossible to eliminate the malfunction. Therefore, in order to ensure the timely state of operability of equipment, a reasonable approach should be formed to optimize the technological processes of diagnosing worn parts and replacing them with new ones with minimal unit costs and time downtime of various types of equipment. Based on the above, the requirements for the modern technological process of equipment diagnostics are formulated, which are established on the basis of the representation of technical systems as complex, including a significant number of interconnected subsystems and elements. Therefore, based on information from the entire number of interfaces and parts included in the technical system to establish their technical condition, the diagnostic method based on conditional probabilities of malfunctions, taking into account the sequence of searching for faulty elements, has been improved. Reducing the complexity of diagnostics is achieved by stopping verification operations with the establishment of faults in the resource interface, and therefore the control sequence will begin with one of the mechanisms that has resource interfaces. In this case, the minimum entropy value will be in the case when the probability of occurrence and absence of faults are close to each other Materials for this article were prepared in the framework of the scientific project no.AR05135518 "Military logistics: features of creating an integrated logistics system in the Armed Forces of the Republic of Kazakhstan".