A FAULT-TOLERANT DISTRIBUTED DATA FLOW ARCHITECTURE FOR REAL-TIME DECENTRALIZED CONTROL

Salvador Fallorina; Paul Thienphrapa; Rodrigo Luna; Vu Khuong; Helen Boussalis; Charles Liu; Jane Dong; Khosrow Rad; Wing Ho

doi:10.5220/0001172101090115

A FAULT-TOLERANT DISTRIBUTED DATA FLOW ARCHITECTURE FOR REAL-TIME DECENTRALIZED CONTROL

Salvador Fallorina, Paul Thienphrapa, Rodrigo Luna, Vu Khuong, Helen Boussalis, Charles Liu, Jane Dong, Khosrow Rad, Wing Ho

2005

Abstract

Complex control-oriented structures are inherently multiple input, multiple output systems whose complexities increase significantly with each additional parameter. When precision performance in both space and time is required, these types of applications can be described as real-time systems that demand substantial amounts of computational power in order to function properly. The failure of a subsystem can be viewed as the extreme case of a non-real-time response, so the ability of a system to recognize and recover from faults, and continue operating in at least some degraded mode, is of crucial importance. Furthermore, the issue of fault-tolerance naturally arises because real-time control systems are often placed in mission-critical contexts. Decentralized control techniques, in which multiple lower-order controllers replace a monolithic controller, provide a framework for embedded parallel computing to facilitate the fault-tolerance and high performance of a sophisticated control system. This paper introduces a fault-tolerant concept to the handling of data flows in multiprocessor environments that are reminiscent of control systems. The design is described in detail and compared against a typical master-slave configuration. A distributed data flow architecture embraces tolerance to processor failures while satisfying real-time constraints, justifying its use over conventional methods. Both master-slave and distributed data flow designs have been studied with regards to a physical control-intensive system; the conclusions indicate a sound design and encourage the further division of computational responsibilities in order to promote fault-tolerance in embedded control processing systems.

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Paper Citation

in Harvard Style

Fallorina S., Thienphrapa P., Luna R., Khuong V., Boussalis H., Liu C., Dong J., Rad K. and Ho W. (2005). A FAULT-TOLERANT DISTRIBUTED DATA FLOW ARCHITECTURE FOR REAL-TIME DECENTRALIZED CONTROL . In Proceedings of the Second International Conference on Informatics in Control, Automation and Robotics - Volume 3: ICINCO, ISBN 972-8865-31-7, pages 109-115. DOI: 10.5220/0001172101090115

in Bibtex Style

@conference{icinco05,
author={Salvador Fallorina and Paul Thienphrapa and Rodrigo Luna and Vu Khuong and Helen Boussalis and Charles Liu and Jane Dong and Khosrow Rad and Wing Ho},
title={A FAULT-TOLERANT DISTRIBUTED DATA FLOW ARCHITECTURE FOR REAL-TIME DECENTRALIZED CONTROL},
booktitle={Proceedings of the Second International Conference on Informatics in Control, Automation and Robotics - Volume 3: ICINCO,},
year={2005},
pages={109-115},
publisher={SciTePress},
organization={INSTICC},
doi={10.5220/0001172101090115},
isbn={972-8865-31-7},
}

in EndNote Style

TY - CONF
JO - Proceedings of the Second International Conference on Informatics in Control, Automation and Robotics - Volume 3: ICINCO,
TI - A FAULT-TOLERANT DISTRIBUTED DATA FLOW ARCHITECTURE FOR REAL-TIME DECENTRALIZED CONTROL
SN - 972-8865-31-7
AU - Fallorina S.
AU - Thienphrapa P.
AU - Luna R.
AU - Khuong V.
AU - Boussalis H.
AU - Liu C.
AU - Dong J.
AU - Rad K.
AU - Ho W.
PY - 2005
SP - 109
EP - 115
DO - 10.5220/0001172101090115