systems, which can be associated with a graph whose nodes represent subsystems with
their own internal dynamics, and whose arcs represent flow links among them. We consider
a network-decentralized control: each agent controls a link between two nodes and decides
its actions based on the states of these nodes only. We first provide general necessary and
sufficient stabilizability conditions, proving that suitable network-decentralized strategies …
We consider the flow control problem for a general class of compartmental nonlinear
systems, which can be associated with a graph whose nodes represent subsystems with
their own internal dynamics, and whose arcs represent flow links among them. We consider
a network-decentralized control: each agent controls a link between two nodes and decides
its actions based on the states of these nodes only. We first provide general necessary and
sufficient stabilizability conditions, proving that suitable network-decentralized strategies …