Decision algorithm with uncertainties in a multi-purpose flight safety system

Abstract

The impact of electromagnetic radiation in the discharge of atmospheric electricity can lead to failure of the onboard electronic equipment. The creation of systems for the early detection of zones with increased electrical activity of the atmosphere is an urgent task. Decision making in such a system is complicated by the presence of several criteria depending on uncertain factors. A two-level algorithm is proposed that implements the principle of a guaranteed result with the superposition of Pareto optimal sets of the opposite direction. Values of generalized performance criteria are set with a step of discreteness. This is due to the discrete flow of information from measuring instruments. The software is created in the form of a package of modules with the possibility of upgrading. The time to implement the algorithm depends on the dimension of the input data. A solution can be obtained in a finite number of iterations.The impact of electromagnetic radiation in the discharge of atmospheric electricity can lead to failure of the onboard electronic equipment. The creation of systems for the early detection of zones with increased electrical activity of the atmosphere is an urgent task. Decision making in such a system is complicated by the presence of several criteria depending on uncertain factors. A two-level algorithm is proposed that implements the principle of a guaranteed result with the superposition of Pareto optimal sets of the opposite direction. Values of generalized performance criteria are set with a step of discreteness. This is due to the discrete flow of information from measuring instruments. The software is created in the form of a package of modules with the possibility of upgrading. The time to implement the algorithm depends on the dimension of the input data. A solution can be obtained in a finite number of iterations.