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
achieve actuation algorithms analysis application software approach artificial intelligence automation batch capabilities communication complex component configuration Control Engineering control functions control loops control systems availability cost device distributed control systems ergonomic expert systems fail failure modes fault coverage fault tolerance Fieldbus Figure hardware high availability Horizon Plant human factors implementation improvement increase installed integrity interface level loop load machine maintenance manufacturing measurement monitoring Moore's Law MTBF MTTR Nyquist Plot operating system operation optimization Output Module overall performance personal computer plant equipment Power Supply problem process control system Processor Modules production system programmable controller Redundant Power repair requirements result safety SAFETYBUS sensors setpoint setpoint response shutdown simulation social system software system specific strategy system design system reliability tasks techniques temperature today's Total Control Systems total systems availability transmitter typical vendor Webb-View