Developing interactive interaction of dual buffering systems and conversion class systems with continuous supply of technological products

Abstract: Many modern industrial production facilities consist of sequentially operating systems with a continuous supply of technological product. The task of stabilizing the qualitative and quantitative parameters of output products at all stages of such production is a very difficult task and often leads to additional time and money costs. Therefore, improving the efficiency of these processes is a relevant issue. A review of analogous solutions to this type of problem revealed the variability of their authors’ appro… Show more

“…Structural innovations are associated with the addition of dual buffering systems between each system [10] and the division of technological mechanisms into sections. The proposed approach made it possible to obtain two degrees of freedom of control: the possibility of converting the sectional structure into self-stabilizing modular systems and changing the trajectory of the qualitative parameter of the channelized technological product within the production stage.…”

“…Summing up their analysis of literature data [1][2][3][4][5][6][7][8][9][10][11], we can conclude that the task of optimizing continuous processes is relevant. However, it is necessary to take into consideration the complexity of the resource-intensive production process with dynamically changing parameters and external economic factors.…”

Optimization of resource-intensive dynamic systems with a continuous supply of raw materials according to the criterion of minimum use of reserves

“…Structural innovations are associated with the addition of dual buffering systems between each system [10] and the division of technological mechanisms into sections. The proposed approach made it possible to obtain two degrees of freedom of control: the possibility of converting the sectional structure into self-stabilizing modular systems and changing the trajectory of the qualitative parameter of the channelized technological product within the production stage.…”

“…Summing up their analysis of literature data [1][2][3][4][5][6][7][8][9][10][11], we can conclude that the task of optimizing continuous processes is relevant. However, it is necessary to take into consideration the complexity of the resource-intensive production process with dynamically changing parameters and external economic factors.…”

Optimization of resource-intensive dynamic systems with a continuous supply of raw materials according to the criterion of minimum use of reserves

The Calculating Method of Operation Mode Efficiency for Continuous Dynamic System from a Cybernetic View Point