Description: The article discusses the method of forming the values of the indicators of ergonomic characteristics of the perspective complex of automation equipment for the control system of air forces of operational-tactical development based on the analysis of changes in the functional states of the operator, the time the complex of automation tools to perform individual tasks and the total system load. The need to increase the efficiency of the combat crews of the air force command and control points at the operational tactical level is due to the high degree of uncertainty and dynamism of the air situation and the limited time frame for developing solutions with a significant amount of information. The above method solves the contradiction, which consists in the incompatibility of the volumes of tasks solved using a set of automation tools in the conditions of a quick change of the operational-tactical situation and information overload of the crew members and the possibility of providing the specified rate of decision-making on the use of forces and means -Air defense. The paper describes the automated workplace of the operator of the crew crew’s command and control station. Systematized and described factors affecting the operator of the crew. A model of the influence of the "smoke" factor on the functional states of the operator has been compiled. Using the theory of fuzzy sets and using the mathematical apparatus of predicates, the effect of the "smoke" factor on the functional states of the operator is described. The structure of the method of forming the values of the indicators of ergonomic characteristics of a promising set of automation tools is described and the initial data for this method are described. The method of forming the values of the ergonomic characteristics of a promising set of tools for automating the control system of the air force of the operational-tactical level allows for the redistribution of tasks solved by the complex of automation equipment and provides an increase in the operational analysis of the actions of the air enemy.
Keywords: distribution of tasks, complex of automation tools, software structure, automated workplace, ergonomic characteristics, operator, functional state, control system