Title :
Decentralized control subject to communication and propagation delays
Author :
Rotkowitz, Michael ; Lall, Sanjay
Abstract :
In this paper, we prove that a wide class of distributed control problems subject to communication and propagation delays are equivalent to convex optimization problems. The results hold in both continuous and discrete time, for both stable and unstable systems. A specific example is formation flight, where each aircraft has its own controller, and the effects of an aircraft´s control actions propagate to neighboring aircraft with a delay inversely proportional to the speed of sound. Here each controller may transmit sensor measurements from its aircraft. to neighboring aircraft with ail associated communication delay, and a consequence of these results is that if the communication delay is less than this propagation delay, then norm-optimal controllers may be found via convex programming.
Keywords :
aircraft control; continuous time systems; convex programming; decentralised control; delays; discrete time systems; distributed control; aircraft; communication delays; continuous time; convex optimization; convex programming; decentralized control; discrete time; distributed control; formation flight; norm-optimal controllers; propagation delays; sensor measurements; stable systems; unstable systems; Acoustic propagation; Aerospace control; Aircraft; Communication system control; Constraint optimization; Delay effects; Distributed control; Frequency; Propagation delay; Proportional control;
Conference_Titel :
Decision and Control, 2004. CDC. 43rd IEEE Conference on
Print_ISBN :
0-7803-8682-5
DOI :
10.1109/CDC.2004.1429597
