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| Адаптивно управление× | Контрол чрез обратно стъпване× | Итеративно обучение за управление× | Моделно-предиктивно управление× | |
|---|---|---|---|---|
| Област | Теория на управлението | Теория на управлението | Теория на управлението | Теория на управлението |
| Семейство | Machine learning | Machine learning | Machine learning | Machine learning |
| Година на възникване≠ | 1983 | 1995 | 1984 | 1978 |
| Създател≠ | Karl J. Astrom | Miroslav Krstic | Suguru Arimoto | Jacques Richalet |
| Тип | algorithm | algorithm | algorithm | algorithm |
| Основополагащ източник≠ | Astrom, K. J., & Wittenmark, B. (1983). Computer-Controlled Systems: Theory and Design. Prentice Hall. link ↗ | Krstic, M., Kanellakopoulos, I., & Kokotovic, P. (1995). Nonlinear and Adaptive Control Design. John Wiley & Sons. link ↗ | Arimoto, S., Kawamura, S., & Miyazaki, F. (1984). Bettering operation of robots by learning. Journal of Robotic Systems, 1(2), 123-140. DOI ↗ | Richalet, J., Rault, A., Testud, J., & Papon, J. (1978). Model predictive heuristic control. Automatica, 14(5), 413-428. DOI ↗ |
| Други названия≠ | Self-Tuning Control, Parameter Estimation Control | Integrator Backstepping, Recursive Lyapunov Design | ILC, Learning Control, Repetitive Control | MPC, Receding Horizon Control |
| Свързани≠ | 3 | 3 | 4 | 5 |
| Резюме≠ | Adaptive Control is a control strategy that adjusts controller parameters in real-time based on online system identification to maintain performance despite changing plant dynamics or uncertain parameters. Pioneered by Astrom and Wittenmark, adaptive control enables robust operation in time-varying environments, from aircraft with fuel depletion to industrial systems with aging components. | Backstepping is a systematic nonlinear control design method that decomposes a complex nonlinear system into simpler subsystems and designs a controller recursively, layer by layer, ensuring stability at each step. Developed by Krstic, Kanellakopoulos, and Kokotovic, backstepping enables control of nonlinear systems without requiring exact model knowledge or full state linearization, combining flexibility with guaranteed stability. | Iterative Learning Control (ILC) is a control method for systems that perform the same task repeatedly (trajectory tracking over a fixed time interval). The key idea is to use error information from previous trials to update the input for the next trial, progressively improving tracking accuracy. Pioneered by Arimoto et al. in 1984, ILC is ideal for robotic manufacturing, semiconductor processing, and any application where the same motion must be repeated many times with high precision. | Model Predictive Control (MPC) is an advanced control strategy that uses an explicit process model to predict future system behavior over a finite horizon and solves an optimization problem at each control step. First formalized by Richalet et al. in 1978, MPC has become the dominant approach in process control industries, from chemical plants to autonomous vehicles, because it naturally handles constraints and can optimize multiple objectives simultaneously. |
| ScholarGateНабор от данни ↗ |
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