Основные понятия
The core message of this article is to extend the problem of damping a first-order control system with aftereffect, previously considered only on an interval, to an arbitrary tree graph. The authors establish the equivalence of the corresponding variational problem to a self-adjoint boundary value problem on the tree, and prove the unique solvability of both problems.
Аннотация
The article proposes a new interpretation of quantum graphs as temporal networks, where the variable parametrizing the edges is associated with time, and each internal vertex represents a branching point with several possible scenarios for the further trajectory of the process. The authors extend the problem of damping a first-order control system with aftereffect, previously studied only on an interval, to an arbitrary tree graph.
The key highlights and insights are:
- The authors introduce the concept of functional-differential operators on graphs with global delay, where the delay propagates through all internal vertices of the graph.
- They formulate the variational problem of damping the control system and bringing it into equilibrium, while minimizing the energy functional that accounts for the anticipated probability of each scenario.
- The authors establish the equivalence of the variational problem to a self-adjoint boundary value problem on the tree, involving both global delay and global advance.
- They prove the unique solvability of both the variational problem and the boundary value problem, and obtain an estimate for the solution in terms of the initial function.
- The authors discuss a stochastic interpretation of the control problem on a tree, where the constant coefficients in the original equation are replaced by discrete-time stochastic processes.