Local open‐ and closed‐loop manipulation of multiagent networks

Abstract: The manipulation of networked cyberphysical devices via local external actuation or feedback control is explored, in the context of a canonical multiagent dynamical system that is engaged in a consensus or synchronization task. One main focus is to understand whether or not, and how easily, a stakeholder can manipulate the full network's dynamics by hijacking only one agent's actuation signal. Explicit spectral characterizations are given of the energy (effort) required to manipulate the dynamics. These charac… Show more

“…Because of the relevance of Gramian matrices to network controllability as well as dual observability/estimation problems, some structural and graph-theoretic results on the full Gramian have been developed for canonical network-consensus models, as well as for other dynamical network processes [9,11,16,17,20].…”

Controllability-Gramian Submatrices for a Network Consensus Model

“…Because of the relevance of Gramian matrices to network controllability as well as dual observability/estimation problems, some structural and graph-theoretic results on the full Gramian have been developed for canonical network-consensus models, as well as for other dynamical network processes [9,11,16,17,20].…”

Controllability-Gramian Submatrices for a Network Consensus Model

Closed-loop supply chain design for the transition towards a circular economy: A systematic literature review of methods, applications and current gaps

Controllability-Gramian submatrices for a network consensus model