| 1337 - 1345 |
Subspace identification with non-steady Kalman filter parameterization
Zhao Y, Qin SJ |
| 1346 - 1357 |
A gap metric based weighting method for multimodel predictive control of MIMO nonlinear systems
Du JJ, Johansen TA |
| 1358 - 1370 |
A model structure-driven hierarchical decentralized stabilizing control structure for process networks
Hangos KM, Szederkenyi G |
| 1371 - 1381 |
Analysis and design of an Extended Kalman Filter for the plate temperature in heavy plate rolling
Speicher K, Steinboeck A, Kugi A, Wild D, Kiefer T |
| 1382 - 1393 |
Nearest neighbors method for detecting transient disturbances in process and electromechanical systems
Cecilio IM, Ottewill JR, Pretlove J, Thornhill NF |
| 1394 - 1401 |
A multiple periodic disturbance rejection control for process with long dead-time
Shen P, Li HX |
| 1402 - 1411 |
A new calculation method of feedback controller gain for bilinear paper-making process with disturbance
Hamdy M, Hamdan I |
| 1412 - 1424 |
Process diagnosis based on qualitative trend similarities using a sequence matching algorithm
Gamero FI, Melendez J, Colomer J |
| 1425 - 1443 |
State estimation of nonlinear dynamical systems using nonlinear update based Unscented Gaussian Sum Filter
Kottakki KK, Bhartiya S, Bhushan M |
| 1444 - 1453 |
System-level operational diagnosability analysis in quasi real-time fault diagnosis: The probabilistic approach
Cui YQ, Shi JY, Wang ZL |
| 1454 - 1461 |
Active learning strategy for smart soft sensor development under a small number of labeled data samples
Ge ZQ |
| 1462 - 1471 |
Low-order feedforward controllers: Optimal performance and practical considerations
Hast M, Hagglund T |
| 1472 - 1488 |
Robust multiple-model LPV approach to nonlinear process identification using mixture t distributions
Lu YJ, Huang B |
| 1489 - 1494 |
Robust non-fragile fractional order PID controller for linear time invariant fractional delay systems
Mesbahi A, Haeri M |
