Total Control Systems Availability: Its Achievement Through Robustness, Fault Tolerance, Fault Analysis, Maintainability, and Other Techniques : Proceedings of the Fifteenth Annual Advanced Control Conference, West Lafayette, Indiana, September 11-13, 1989E. J. Kompass, Theodore Joseph Williams |
Contents
ASPECTS OF ACHIEVING TOTAL | 1 |
ERGONOMIC DESIGN ISSUES IN PLANTS | 9 |
TOTAL CONTROL SYSTEMS AVAILABILITY | 23 |
Copyright | |
6 other sections not shown
Common terms and phrases
ability achieve action actuation allow analysis application approach automation become better called cause communication complex component configuration considered continuous control system cost critical detection device discussed distributed effective engineering equipment example experience factors fail failure fault fault tolerance field Figure functions gain handling hardware higher human implementation important improvement increase industrial input installed integrity interface involved knowledge load loop machine maintenance major manufacturing material means measurement method mode Modules monitoring MTBF objective occur operation optimization outputs parameters performance plant possible practical present problem process control Processor production Protuner redundant reliability repair requirements response result robustness safety selected setpoint shows simulation single specific standard systems availability tasks techniques total system tuning typical unit vendor