Title :
Fault diagnosis for closed-loop drug infusion
Author :
Abbod, M.F. ; Linkens, D.A.
Author_Institution :
Dept. of Autom. Control & Syst. Eng., Sheffield Univ., UK
Abstract :
The introduction of a supervisory level into a systems architecture gives a more robust control structure, whereby one can translate the requirements given by the user to a knowledge-base for use by the controller. It also provides a complete system structure for fault detection and diagnosis. As shown in this paper, it has been implemented successfully for a medical system and provides generic control tasks for keeping the process on-line within acceptable behaviour boundaries. If a fault occurs in the process, the control task passes through a primary direct control regime first, then an adaptive control regime, and finally a fault diagnosis regime, each attempting to drive the system behaviour into an acceptable zone
Keywords :
drug delivery systems; acceptable behaviour boundaries; adaptive control regime; closed-loop drug infusion; fault detection; fault diagnosis; fuzzy logic controller; generic control tasks; generic design; intelligent supervisory control; knowledge-base; mathematical model; multilayer hierarchical supervisory level; paralysis level; patient model; primary direct control regime; relaxograph fault; robust control structure; self-organising system; simulation; syringe driver fault;
Conference_Titel :
Condition Monitoring: Machinery, External Structures and Health (Ref. No. 1999/034), IEE Colloquium on
Conference_Location :
Birmingham
DOI :
10.1049/ic:19990190
