Dynamic testing equipment for evaluation of time consumption for the forms of reasoning of a human-operator

The article is devoted to the design features and functional capability of dynamic testing equipment used for evaluation of time consumption for the forms of reasoning of a human-operator with a latent period of information transition through the brain according to experimental data working in the “man-machine” system. These studies are important because the “human-operator” system is an intellectual one. Therefore, the determination of the time of pure delay, spent on the implementation of the forms of reasoning, is required for quality control of the decisions made the human-operator while managing objects. The Wiener series of orthogonal G-functionals gives the most complete and rigorous description of the dynamics of a human-operator, and the mathematical tools to calculate the required time of delay.The article is devoted to the design features and functional capability of dynamic testing equipment used for evaluation of time consumption for the forms of reasoning of a human-operator with a latent period of information transition through the brain according to experimental data working in the “man-machine” system. These studies are important because the “human-operator” system is an intellectual one. Therefore, the determination of the time of pure delay, spent on the implementation of the forms of reasoning, is required for quality control of the decisions made the human-operator while managing objects. The Wiener series of orthogonal G-functionals gives the most complete and rigorous description of the dynamics of a human-operator, and the mathematical tools to calculate the required time of delay.