| 519 - 526 |
An auto-tuning method for dominant-pole placement using implicit model reference adaptive control technique
Yang QW, Xue YC, Yang SX, Yang WL |
| 527 - 539 |
Improving feedforward disturbance compensation capabilities in Generalized Predictive Control
Pawlowski A, Guzman JL, Normey-Rico JE, Berenguel M |
| 540 - 550 |
Efficient direct multiple shooting for nonlinear model predictive control on long horizons
Kirches C, Wirsching L, Bock HG, Schloder JP |
| 551 - 563 |
Fault detection and isolation in transient states using principal component analysis
Garcia-Alvarez D, Fuente MJ, Sainz GI |
| 564 - 582 |
Sensitivity compensating nonlinear control: Exact model based approach
Rani KY |
| 583 - 598 |
Source identification of plant-wide faults based on k nearest neighbor time delay estimation
Stockmann M, Haber R, Schmitz U |
| 599 - 611 |
Utilizing transition information in online quality prediction of multiphase batch processes
Ge ZQ, Zhao LP, Yao Y, Song ZH, Gao FR |
| 612 - 625 |
A novel dead time compensator for stable processes with long dead times
Kirtania K, Choudhury MAAS |
| 626 - 634 |
Fault diagnosis and accommodation of nonlinear systems based on multiple-model adaptive unscented Kalman filter and switched MPC and H-infinity loop-shaping controller
Mirzaee A, Salahshoor K |
| 635 - 642 |
A method of MPC model error detection
Ji GL, Zhang KK, Zhu YC |
| 643 - 652 |
Disturbance rejection for the control of batch end-product quality using latent variable models
Wan J, Marjanovic O, Lennox B |
| 653 - 658 |
Control of a direct internal reforming molten carbonate fuel cell system using wavelet network-based Hammerstein models
Wu W, Jhao DW |
