Title :
A hierarchical multi-agent dynamical system architecture for resilient control systems
Author :
Rieger, Craig ; Quanyan Zhu
Author_Institution :
Idaho Nat. Lab., Instrum. Control & Intell. Syst., Idaho Falls, ID, USA
Abstract :
Resilient control systems refers to the ones that maintain state awareness and an accepted level of operational normalcy in response to disturbances, including threats of an unexpected and malicious nature. In this paper, we propose a notional research philosophy and resulting framework based on a three-layer architecture of hierarchical multi-agent dynamic systems (HMADS). While a number of different alternatives have been proposed for distributed control system design, few provide the level of integration necessary to support claims of superior performance over traditional designs. We discuss multiple notional attributes associated with HMADS, namely, their functionalities, hardware independence and intelligence. We provide a framework for design of HMADS, and use power systems as a notional example as an illustration of the HMADS design philosophy.
Keywords :
control engineering computing; control system synthesis; distributed control; multi-agent systems; HMADS design philosophy; distributed control system design; hierarchical multiagent dynamical system architecture; notional attributes; notional research philosophy; operational normalcy; power systems; resilient control systems; state awareness; three-layer architecture; Control systems; Hardware; Power system dynamics; Power system stability; Process control; Sensors; Stability criteria;
Conference_Titel :
Resilient Control Systems (ISRCS), 2013 6th International Symposium on
Conference_Location :
San Francisco, CA
DOI :
10.1109/ISRCS.2013.6623742
