Physical and mathematical modeling of dynamic processes of self-organization in complex nanoelectromechanical systems

The issues of modeling the processes of self-organization and self-assembly in complex nanoelectromechanical systems (NEMS) with binary-conjugated functional elements of subsystems are considered, and the emergence of the effect of self-organization in them is investigated. On the basis of the proposed modeling principles, the possibility of creating NEMS products with the combination of operating harmoniously technical and natural functional elements (for example, complex multi-element systems of nonlinearly connected molecular motors of different structures) is established. © 2021 Federal Informational-Analytical Center of the Defense Industry. All rights reserved.